Refine
Year of publication
- 2019 (696) (remove)
Document Type
- Journal article (487)
- Doctoral Thesis (163)
- Book article / Book chapter (23)
- Preprint (19)
- Conference Proceeding (1)
- Other (1)
- Report (1)
- Working Paper (1)
Language
- English (696) (remove)
Keywords
- Animal Studies (24)
- Cultural Animal Studies (24)
- Cultural Studies (24)
- Ecocriticism (24)
- Environmental Humanities (24)
- Human-Animal Studies (24)
- Literary Studies (24)
- boron (11)
- apoptosis (8)
- inflammation (7)
- Tissue Engineering (6)
- cancer (6)
- ischemic stroke (6)
- children (5)
- measles virus (5)
- tissue engineering (5)
- DNA methylation (4)
- Drosophila melanogaster (4)
- Hydrogel (4)
- Maschinelles Lernen (4)
- Neisseria meningitidis (4)
- Spektroskopie (4)
- Taufliege (4)
- cancer therapy (4)
- deep brain stimulation (4)
- infection (4)
- microbiome (4)
- multiple myeloma (4)
- sphingolipids (4)
- stroke (4)
- virtual reality (4)
- Übergangsmetalloxide (4)
- 3D tissue model (3)
- 3D-Druck (3)
- Ancistrocladaceae (3)
- Candida albicans (3)
- Chronobiologie (3)
- Elektrophysiologie (3)
- Exziton (3)
- Fluoreszenzmikroskopie (3)
- GABA (3)
- Genexpression (3)
- Leistungsbewertung (3)
- Maus (3)
- Megakaryozyt (3)
- Meningitis (3)
- Monte-Carlo (3)
- Physics (3)
- Raman-Spektroskopie (3)
- Schlaganfall (3)
- Serotonin (3)
- Soziale Wahrnehmung (3)
- Staphylococcus aureus (3)
- Survival (3)
- Ureaplasma parvum (3)
- Ureaplasma urealyticum (3)
- aging (3)
- blood–brain barrier (3)
- boranes (3)
- climate change (3)
- colorectal cancer (3)
- cytokines (3)
- cytotoxicity (3)
- death receptors (3)
- depression (3)
- epigenetics (3)
- genetics (3)
- gephyrin (3)
- in vitro (3)
- length of stenosis (3)
- leukemic cells (3)
- lysosome (3)
- machine learning (3)
- magnetic resonance imaging (3)
- metagenomics (3)
- migration (3)
- p53 (3)
- platelets (3)
- presence (3)
- psychiatric disorders (3)
- remote sensing (3)
- risk factors (3)
- stem cells (3)
- ubiquitin (3)
- 2Dimensionale Spektroskopie (2)
- 3D (2)
- 3D printing (2)
- AdS/CFT (2)
- Aggregation (2)
- Angst (2)
- Annotation (2)
- Anxiety (2)
- Aufmerksamkeit (2)
- B-MYB (2)
- Bees (2)
- Bilanzpolitik (2)
- Bildverarbeitung (2)
- Bioinformatik (2)
- Biomaterial (2)
- Biomedical engineering (2)
- Blutgerinnung (2)
- C-reactive protein (2)
- CXCR4 (2)
- Cancer (2)
- Channelrhodopsin (2)
- Chlamydia trachomatis (2)
- Colonization (2)
- Constraints (2)
- Cross-Section (2)
- Cryo-EM (2)
- DNA damage (2)
- Decay (2)
- Deutschland (2)
- Drosophila (2)
- EEA (2)
- Ecology (2)
- Exercise capacity (2)
- Expression (2)
- FKBP5 (2)
- GABAA receptors (2)
- Gedächtnis (2)
- HBMEC (2)
- HBV (2)
- HIV (2)
- Hadron colliders (2)
- Halbleiter (2)
- HeLa cells (2)
- Imaging techniques (2)
- Impact (2)
- Implantat (2)
- In vitro (2)
- Inhibitor (2)
- KDELR2 (2)
- Kernspintomografie (2)
- Knochenzement (2)
- Kognition (2)
- Lungenkrebs (2)
- MLST (2)
- MSC (2)
- Machine Learning (2)
- Melanoma (2)
- Merocyanine (2)
- Metabolomics (2)
- Metadynamics (2)
- Methylation (2)
- Mitose (2)
- Molekulargenetik (2)
- Muscarinrezeptor (2)
- NHC (2)
- Naphthylisochinolinalkaloide (2)
- Neurons (2)
- Optimierung (2)
- Optogenetik (2)
- PIP2 (2)
- Pair Production (2)
- Parton Distributions (2)
- Parton distributions (2)
- Perylenderivate (2)
- Pontryagin maximum principle (2)
- Positronen-Emissions-Tomografie (2)
- Quanten-Vielteilchensysteme (2)
- Quantum Information (2)
- Quantum many-body systems (2)
- RNA-seq (2)
- Radiative-corrections (2)
- Reduction (2)
- Regenerative Medizin (2)
- Röntgen-Photoelektronenspektroskopie (2)
- S-ADAPT (2)
- SQH method (2)
- Screening (2)
- Selbstorganisation (2)
- Sentinel-1 (2)
- Signaltransduktion (2)
- Simulation (2)
- Solution-state NMR (2)
- Stem cells (2)
- Supramolekulare Chemie (2)
- TNF receptor superfamily (2)
- TNF superfamily (2)
- TNFR1 (2)
- TRAIL (2)
- Tanzania (2)
- Telekommunikationsnetz (2)
- Thrombozyt (2)
- Top-Quark (2)
- VEGF (2)
- Vaskularisierung (2)
- Verhalten (2)
- Zellteilung (2)
- actin (2)
- adolescents (2)
- agriculture (2)
- allometric scaling (2)
- antibiotics (2)
- antibody (2)
- antibody fusion proteins (2)
- artemisinin (2)
- autophagy (2)
- bacteria (2)
- biofabrication (2)
- blood-brain barrier (2)
- body composition (2)
- body size (2)
- bone (2)
- bone adhesive (2)
- cAArC (2)
- calcium phosphate cement (2)
- cancer genomics (2)
- cancer immunotherapy (2)
- cancer metabolism (2)
- cardiomyopathy (2)
- carotid atherosclerosis (2)
- carotid stenosis (2)
- carotid ultrasound (2)
- caspase-8 (2)
- cell death (2)
- cell imaging (2)
- cell therapy (2)
- chemistry (2)
- complexes (2)
- copper (2)
- cystic fibrosis patients (2)
- dSTORM (2)
- degree of stenosis (2)
- dendritic cells (2)
- density functional calculations (2)
- diagnostic markers (2)
- diazepam (2)
- dopamine (2)
- drug delivery (2)
- ecology (2)
- endothelium (2)
- evolution (2)
- exciton-exciton (2)
- fatigue (2)
- fluorescence (2)
- genome annotation (2)
- genome assembly (2)
- geomorphology (2)
- glioblastoma multiforme (2)
- glucocorticoid receptor (2)
- glycoprotein VI (2)
- healthy volunteers (2)
- human behaviour (2)
- hydroboration (2)
- hydrogel (2)
- imaging (2)
- immunotherapy (2)
- information extraction (2)
- inhibitory neurotransmission (2)
- interleukin-8 (2)
- irradiation (2)
- knockout (2)
- lymphocytes (2)
- macrophages (2)
- magnetic properties and materials (2)
- measurement (2)
- megakaryopoiesis (2)
- melt electrospinning writing (2)
- meningitis (2)
- mental health (2)
- mesencephalic locomotor region (2)
- metabolic adaptation (2)
- microRNA (2)
- microtubules (2)
- mitochondria (2)
- molecular biology (2)
- mouse (2)
- multiple bonding (2)
- multiple sclerosis (2)
- natural language processing (2)
- neuroinflammation (2)
- neurology (2)
- neuroprotection (2)
- next generation sequencing (2)
- oncology (2)
- oncolytic virus (2)
- optimal drug combination (2)
- optogenetics (2)
- outcome (2)
- pathogens (2)
- performance (2)
- personalized medicine (2)
- photothrombotic stroke (2)
- platelet (2)
- polycyclic aromatic hydrocarbons (2)
- polymers (2)
- population pharmacokinetics (2)
- prognosis (2)
- prognostic marker (2)
- prostate cancer (2)
- quantum optics (2)
- radicals (2)
- reactive oxygen species (2)
- recurrence (2)
- relapse (2)
- rheumatoid arthritis (2)
- ring-expansion reaction (2)
- screening (2)
- secondary prevention (2)
- semiconductor lasers (2)
- smartphone app (2)
- social attention (2)
- software (2)
- structure (2)
- subthalamic nucleus (2)
- surgery (2)
- survival (2)
- synthesis (2)
- targeted therapy (2)
- tight junction (2)
- trade-offs (2)
- two-photon excited fluorescence (2)
- vascularization (2)
- wound healing (2)
- (classical and atypical) Werner syndrome (1)
- (hem)ITAM signaling (1)
- + (1)
- ++ (1)
- 1,2-additions (1)
- 18F-FDS (1)
- 2 Jets (1)
- 2-deoxy-2-18F-fluoro-D-sorbitol (1)
- 25-hydroxycholesterol 7 alpha-hydroxylase (1)
- 2D material (1)
- 3-coordinate organoboron compounds (1)
- 3D Bioprinting (1)
- 3D Modell (1)
- 3D Point Cloud Processing (1)
- 3D Tumormodell (1)
- 3D cultures (1)
- 3D model (1)
- 3D remote sensing (1)
- 3D tumour model (1)
- 3D-Modell (1)
- 3 T (1)
- 4-HNE (1)
- 4D flow (1)
- 68Ga-DOTANOC (1)
- 68Ga-DOTATATE (1)
- 68Ga-DOTATOC (1)
- A-D-A dyes (1)
- A-priori-Wissen (1)
- A. abbreviatus (1)
- A. likoko (1)
- ABP1 (1)
- ADHD (1)
- AHRR (1)
- ALAN (1)
- AMP-activated kinases (1)
- AMP‐activated protein kinase (1)
- APOBEC3G (1)
- APRI (1)
- ARCI (1)
- ARCI EM type III (1)
- ATP generation (1)
- AUX1 (1)
- Abfallbehandlung (1)
- Abfallwirtschaft (1)
- Absorbed Doses (1)
- Abszision (1)
- Accurate (1)
- Acids (1)
- Acinetobacter baumannii (1)
- Ackerschmalwand (1)
- Actin (1)
- Actin-bindende Proteine (1)
- Activation (1)
- Active Galactic Nuclei (1)
- Active disease (1)
- Acute myeloid leukemia (AML) (1)
- AdS-CFT Correspondence (1)
- AdS-CFT-Korrespondenz (1)
- AdS/CFT correspondence (1)
- Adaptation (1)
- Adherens junction (1)
- Adhesion GPCR (1)
- Adipositas (1)
- Administered Activities (1)
- Adolescent (1)
- Adult (1)
- Advanced Analytics (1)
- Affekt (1)
- African Trypanosomiasis (1)
- Akt (1)
- Akt/PKB (1)
- Aktionsforschung (1)
- Alcohol dependence (1)
- Algorithm (1)
- Alien limb syndrome (1)
- Alkaloid (1)
- Allogeneic transplantation (1)
- Alpine habitats (1)
- Alzheimer's disease (1)
- Aminerge Nervenzelle (1)
- Amygdala (1)
- Anarchic limb syndrome (1)
- Andalusian varieties (1)
- Angiogenese (1)
- Angstverarbeitung (1)
- Animales Nervensystem (1)
- Anisotropic Magnetoresistance (1)
- Anomalous magnetic-moment (1)
- Anreize (1)
- Antarctica (1)
- Anthropocene (1)
- Anti-infective (1)
- Antibiotikum (1)
- Antigen CD19 (1)
- Antigen CD28 (1)
- Antigenrezeptor (1)
- Antikörper (1)
- Antimalariamittel (1)
- Antioxidants (1)
- Antizipation (1)
- Aortic arch (1)
- Apidae (1)
- Apis mellifera (1)
- Aplastic anemia (1)
- Apoptosis (1)
- Applied physics (1)
- Arabidopsis thaliana (1)
- Arbeitsmobilität (1)
- Archaeology (1)
- Aromatically annulated triquinacenes (1)
- Aromatisch anellierte Triquinacene (1)
- Arylborylene Complexes (1)
- Arzneimittel (1)
- Ascaris lumbricoides (1)
- Aspergillus (1)
- Aspergillus fumigalus (1)
- Assistenzbedarf (1)
- Associative learning (1)
- Astronomie (1)
- Astrophysical neutrino sources (1)
- Astroteilchenphysik (1)
- Atacama (1)
- Atmospheric muons (1)
- Atomic and molecular interactions with photons (1)
- Atrial fibrillation (1)
- Attitude Determination and Control (1)
- Attitude Dynamics (1)
- Audit Quality (1)
- Audit sampling (1)
- Aufsichtsrat (1)
- Autoaggressionskrankheit (1)
- Autologous hematopoietic stem cell transplantation (1)
- Autoproteolysis (1)
- Auxine (1)
- Außenhandel (1)
- B cell (1)
- B cell malignancies (1)
- B cells (1)
- B,N-heterocylcles (1)
- B-B bond activation (1)
- B7-H1 (1)
- BAL (1)
- BCG (1)
- BMI (1)
- BRAF mutation (1)
- BRAF-mutant (1)
- BRAF-mutiert (1)
- BRCA1 (1)
- BaBiO3 (1)
- Bank (1)
- Banking (1)
- Barrier (1)
- Behaviour (1)
- Behavioural ecology (1)
- Benchmarking (1)
- Benutzeroberfläche (1)
- Benzimidazole (1)
- Berberine (1)
- Berechnung (1)
- Berufsbildung (1)
- Bevacizumab (1)
- Bhabha Scattering (1)
- Big Data (1)
- Bildbearbeitung (1)
- Bildgebung intakten Knochens (1)
- Bildungswesen (1)
- Binge drinking (1)
- Biofabrication (1)
- Biofabrikation (1)
- Biofilm (1)
- Biofilmarchitektur (1)
- Bioink (1)
- Biokinetics (1)
- Biologika (1)
- Biomarke (1)
- Biomedicine (1)
- Biophysics (1)
- Bioreaktor (1)
- Biotinten (1)
- Bioverfügbarkeit (1)
- Bipolar disorder (1)
- Biradikal (1)
- Bistability (1)
- Black Holes in String Theory (1)
- Black holes (1)
- Black-hole (1)
- Blazar (1)
- Blood (1)
- Body schema (1)
- Boson (1)
- Bosons (1)
- Brain cancer (1)
- Brain diseases (1)
- Brain endothelial cells (1)
- Branching fractions (1)
- Bronchopulmonary dysplasia (1)
- Brustkrebs (1)
- Business Process Management (1)
- Business Process Modeling (1)
- By-Light Scattering (1)
- B−H activation (1)
- C-60 fullerene (1)
- C-C coupling (1)
- C-terminal HSP90 inhibitors (1)
- C/EBP (1)
- C3a (1)
- C3aR (1)
- C5a (1)
- C5aR1 (1)
- C5aR2 (1)
- C60 fullerene (1)
- CAR T cells (1)
- CCI (1)
- CD274 (1)
- CD4+ T cells (1)
- CD8+ T cells (1)
- CD95 (1)
- CDC42 (1)
- CERN (1)
- CIDP (1)
- CMV (1)
- CO sensing (1)
- CO‐releasing molecules (CORMs) (1)
- CRH1 (1)
- CRISPR-Cas systems (1)
- CRM (1)
- CRMO (1)
- CVID (1)
- CXCL5 (1)
- CXCL8 (1)
- CXCR2 (1)
- CYP1B1 (1)
- C\(_{60}\) fullerene (1)
- Cadherine (1)
- Caenorhabditis elegans (1)
- Calcium (1)
- Calciumphosphat (1)
- Calciumphosphate (1)
- Calciumphosphatzemente (1)
- Callyspongia siphonella (1)
- Cancer Cell (1)
- Cancer genetics (1)
- Candida (1)
- Capicua transcriptional repressor (1)
- Capillary Electrophoresis (1)
- Cardiac ventricles (1)
- Cardiovascular diseases (1)
- Cardiovascular risk factors (1)
- Cardiovascular risk prediction (1)
- Carotid intima-media thickness (CIMT) (1)
- Carotid segment (1)
- Carotid ultrasound (1)
- Carotisstenose (1)
- Caspase (1)
- Cataglyphis (1)
- Cdh13 (1)
- Cell migration (1)
- Cell stainin (1)
- Central Asia (1)
- Central nervous system (1)
- Ceramic polymer composite (1)
- Chambers (1)
- Channelrhodopsin-2 (1)
- Characterization and analytical techniques (1)
- Charge carrier recombination (1)
- Charge-transfer-Komplexe (1)
- Chelatbildner (1)
- Chemical Structure (1)
- Chemical composition (1)
- Chemical stability (1)
- Chemische Synthese (1)
- Cherenkov underwater neutrino telescope (1)
- Children (1)
- Chile (1)
- Chili RNA Aptamer (1)
- Chimeric Antigen Receptor (1)
- Chimärer Antigenrezeptor (1)
- China (1)
- Chiral spin liquids (1)
- Chirale Spinflússigkeiten (1)
- Choice Behavior/physiology (1)
- Chondrogenesis (1)
- Chromatographie (1)
- Chronische Nierenerkrankung (1)
- Chronobiology (1)
- Circinella (1)
- Circular dichroism (1)
- Click Chemie (1)
- Clinical Data Warehouse (1)
- Clinically silent stroke (1)
- CoQ10 (1)
- Code Examples (1)
- Codon (1)
- Cognitive behavior (1)
- Cognitive neuroscience (1)
- Coherent Multidimensional Spectroscopy (1)
- Community-acquired methicillin-resistant Staphylococcus aureus (1)
- Commuting (1)
- Complexity (1)
- Computational Chemistry (1)
- Computational and Systems Biology (1)
- Computed axial tomography (1)
- Computer modelling (1)
- Computersimulation (1)
- Conditioning regimen (1)
- Confidence intervals (1)
- Confocal microscopy (1)
- Conformal Metrics (1)
- Congolese Ancistrocladus plants (1)
- Conical Intersections (1)
- Conifers (1)
- Conservation (1)
- Consistent partial least squares (1)
- Construct Modeling (1)
- Controlling (1)
- Corporate Governance (1)
- Corporate Social Responsibility (1)
- Correlated Electron Materials (1)
- Correlated Fermions (1)
- Corticobasal syndrome (1)
- Corticosteroids (1)
- Cosmic-rays (1)
- Couplings (1)
- CpG (1)
- Cranial sutures (1)
- Cross-section (1)
- Curvature Equation (1)
- Cushing-Syndrom (1)
- Cushing’s disease (1)
- Cutaneous lymphoma (1)
- Cysteinproteasen (1)
- Cystic fibrosis (1)
- Cytochrome P 450 pathway (1)
- Cytokine (1)
- Cytologie (1)
- Cytosol (1)
- DC gate (1)
- DCAF17 (1)
- DEM (1)
- DFT mechanism (1)
- DLS and AFM measurements (1)
- DNA electronic transport (1)
- DNA methyltransferases (1)
- DNA repair (1)
- DNA sequencing (1)
- DNA weight (1)
- DNA-Schäden (1)
- DNA-repair (1)
- DNA-repair genes (1)
- DPP IV (1)
- DRG (1)
- DROSHA (1)
- DSB focus substructure (1)
- DSM (1)
- Dark-Matter (1)
- Dark-matter (1)
- Data Analytics (1)
- Data Warehouse (1)
- Data acquisition (1)
- Data-Warehouse-Konzept (1)
- Decision Support (1)
- Declarative Performance Engineering (1)
- Deep Inelastic-scattering (1)
- Delbruck Scattering (1)
- Demokratische Republik Kongo (1)
- Dendritic cell (1)
- Dendritische Zelle (1)
- Densovirus (1)
- Dental Phobia (1)
- Depression (1)
- Design (1)
- Development (1)
- Developmental biology (1)
- Dezellularisierung (1)
- Diabetes mellitus (1)
- Diagnosis prediction (1)
- Diagnostic Imaging Exams (1)
- Diagnostic medicine (1)
- Dickdarmtumor (1)
- Diffusion tensor imaging (1)
- Dihydroboranes (1)
- Disease severity (1)
- Dopamin (1)
- Dopamine (1)
- Dosimetry (1)
- Dosis (1)
- Dotierung (1)
- Double-Beta Decay (1)
- Doxorubicin (1)
- Drug delivery platforms (1)
- Drug discovery (1)
- Drug resistance (1)
- Drug testing (1)
- Dual setting system (1)
- Dynamical Systems (1)
- Dynamical system (1)
- Dynamics (1)
- Dünne Schicht (1)
- Dünnschichten (1)
- E(+)E(-) collicions (1)
- E-Learning (1)
- E2 conjugating enzyme (1)
- E3 ligating enzyme (1)
- E8 symmetry (1)
- EBF1 (1)
- EQ5D-5L (1)
- ER-Stress (1)
- ERK (1)
- ERK signaling (1)
- ERK1/2 (1)
- ESAT‐6‐like secretion system (1)
- ESKAPE (1)
- ESS (1)
- EUROASPIRE (1)
- EWAS (1)
- Earnings Management (1)
- Earnings Quality (1)
- Earnings management (1)
- Earth observation (1)
- Echinococcosis (1)
- Echinococcus (1)
- Efficiency (1)
- Efficiency Gains (1)
- Effizienzsteigerung (1)
- Efflux transport (1)
- Eierstockkrebs (1)
- Eigenvectors (1)
- Einkommensverteilung (1)
- Einwandige Kohlenstoff-Nanoröhre (1)
- Einzelmolekülmikroskopie (1)
- Elderly (1)
- Electrical impedance tomography (1)
- Electromagnetic signals (1)
- Electromagnon (1)
- Electron (1)
- Electrophysiology (1)
- Electrospinning (1)
- Electroweak Measurements (1)
- Electroweak Phase-Transition (1)
- Electroweak interaction (1)
- Elektrizitätsverbrauch (1)
- Elektromagnon (1)
- Elektron-Phonon-Wechselwirkung (1)
- Elektronentransfer (1)
- Elektrospinnen (1)
- Elissen-Palm flux (1)
- Embryonic induction (1)
- Embryos (1)
- Emergence (1)
- Emotionales Verhalten (1)
- Empirical Analysis (1)
- Enantiomerentrennung (1)
- Endogene Rhythmik (1)
- Endoplasmic-Reticulum Stress (1)
- Endothel (1)
- Energieeffizienz (1)
- Energy (1)
- Energy Efficiency (1)
- Enhancer elements (1)
- Entanglement (1)
- Entscheidungsunterstützung (1)
- Entscheidungsunterstützungssystem (1)
- Entwicklung (1)
- Entzündung (1)
- Environmental impact (1)
- Epidemiology (1)
- Epigenetic (1)
- Epigenetic regulation (1)
- Epitaxy (1)
- Epstein-Barr virus-induced gene 2 (1)
- Equipment (1)
- Erfolgsplanung (1)
- EsaA (1)
- Escherichia coli (1)
- European Organization for Nuclear Research. ATLAS Collaboration (1)
- European Society for Immunodeficiencies (ESID) (1)
- European Spanish (1)
- European group (1)
- Event builder (1)
- Events GW150914 (1)
- Evolutionary developmental biology (1)
- Evolutionary emergence (1)
- Excited state dynamics (1)
- Exciton (1)
- Exciton coupling (1)
- Exciton localization dynamics (1)
- Exercise testing (1)
- Experimental Studies (1)
- Experimentelle Psychologie (1)
- Expiry date (1)
- Explosives (1)
- Explosivstoff (1)
- Extensions of gauge sector (1)
- Extracellular matrix (1)
- Extracellular volume (1)
- Extramedullary disease (1)
- Extrazelluläre Matrix (1)
- Extreme flows (1)
- Exziton-Polariton (1)
- Exzitonenkopplung (1)
- Eye Movements/physiology (1)
- Eye development (1)
- FIB-4 (1)
- Face Voice Matching (1)
- Fahrerassistenzsystem (1)
- Fak regulation (1)
- Familial Beckwith-Wiedemann syndrome (1)
- Farbstoff (1)
- FasL (1)
- Fatigue (1)
- Fats (1)
- Fear Generalization (1)
- Fear Learning (1)
- Fear conditioning (1)
- Female (1)
- Fertigarzneimittel (1)
- Festkörperphysik (1)
- Fgf-signalling (1)
- Fibroblastenwachstumsfaktor (1)
- Finite support distributions (1)
- Flavor Violation (1)
- Fliegenkippen (1)
- Flowering plants (1)
- Flowers (1)
- Fludarabine (1)
- Fludarabine-treosulfan (FT) (1)
- Fluorescence spectroscopy (1)
- Fluoreszenzspektroskopie (1)
- Fluorine (1)
- Fluorverbindungen (1)
- Flüssigkristall (1)
- Forces (1)
- Forests (1)
- Fotochemie (1)
- Fotophysik (1)
- Fourier-Spektroskopie (1)
- Fractional cover analysis (1)
- Fractional quantum Hall effect (1)
- Fraktionaler Quanten-Hall-Effekt (1)
- Full body ownership illusion (1)
- Functional Connectivity (1)
- Funktionalisierung <Chemie> (1)
- Funktionalisierung von elektrogesponnenen Fasern (1)
- Funktionelle Konnektivität (1)
- Furchkonditionierung (1)
- Furcht (1)
- Furchtgeneralisierung (1)
- Fusarium (1)
- G Protein-coupled receptor (1)
- G-2 (1)
- G-Protein gekoppelte Rezeptor (1)
- G-quadruplex (1)
- GABAA (1)
- GAD1 (1)
- GRP78 (1)
- GSV (1)
- GVHD (1)
- Ga-68-labelled Peptides (1)
- Galactic sources (1)
- Gallensalze (1)
- Gas chromatography (1)
- Gaseous detectors (1)
- Gauge bosons (1)
- Gauge-gravity correspondence (1)
- Gauge/Gravity Duality (1)
- Gaussian approximation (1)
- Gelatine (1)
- Gen-Umwelt Interaktion (1)
- Gene by Environment (1)
- Gene expression analysis (1)
- Gene silencing (1)
- General anaesthesia (1)
- Generalisierung (1)
- Generalisierung <Kartografie> (1)
- Generation (1)
- Genetik (1)
- Genmutation (1)
- Genom (1)
- Genome (1)
- Genome Annotation (1)
- Genomics (1)
- Genotype (1)
- Geriatric care (1)
- Geriatrics (1)
- German PID-NET registry (1)
- Germany (1)
- Germline (1)
- Gesicht (1)
- Gestational diabetes (1)
- Gestationsdiabetes (1)
- Getz Ice Shelf (1)
- Gitterdynamik (1)
- Gliazelle (1)
- Glioblastoma (1)
- Glutathione (1)
- Glycidol (1)
- Glycoengineering (1)
- Glykane (1)
- Glykosylierung (1)
- Go/NoGo task (1)
- Google Earth Engine (1)
- Governance (1)
- Graft versus host disease (1)
- Gram-positive bacteria (1)
- Graph (1)
- Gravitons (1)
- Greenland ice sheet (1)
- Grenzfläche (1)
- Grenzflächenleitfähigkeit (1)
- Group B Streptococcus (1)
- Grundlagenforschung (1)
- Gruppo-italiano (1)
- GvHD (1)
- Gyrasehemmer (1)
- H-infinity (1)
- HARPES (1)
- HCV (1)
- HDAC (1)
- HEMA (1)
- HIV-associated candidiasis (1)
- HNE (1)
- HNSCC (1)
- HPA axis (1)
- HPLC (1)
- HRQOL (1)
- Hadron-Hadron scattering (experiments) (1)
- Hadron-hadron interactions (1)
- Haemophilus influenzae (1)
- Hard X-ray Angle Resolved Photoemission (1)
- Haut (1)
- Health (1)
- Heart (1)
- Heart failure (1)
- Helicasen (1)
- Hematopoietic Stem (1)
- Hematopoietic cell transplant (1)
- Heme-regulated inhibitor (1)
- Hemipelvectomy (1)
- Herzmuskelzelle (1)
- Heterosolarzelle (1)
- Heterostruktur (1)
- Hfq (1)
- Higgy-Boson (1)
- High grade glioma (1)
- High-Energies (1)
- High-Z Oxides (1)
- High-energy astrophysics (1)
- Hindbrain (1)
- Hippo pathway (1)
- Hippocampus (1)
- Histone deacetylase (1)
- Hochauflösende Fluoreszenzmikroskopie (1)
- Hodgkin lymphoma (1)
- Holstein model (1)
- Holstein-Modell (1)
- Honey bees (1)
- Hordeum vulgare (1)
- Hormontransport (1)
- Host Genome Integrity (1)
- Host-parasite interaction (1)
- Human Body Weight (1)
- Human Herpesvirus 6 (1)
- Human Muse Cells (1)
- Human behaviour (1)
- Human-Computer Interaction (1)
- Humanes Herpesvirus 6 (1)
- Humangenetik (1)
- Humans (1)
- Hunsrueck (1)
- Hurwitz theorem (1)
- Hyaluronic Acid (1)
- Hyaluronsäure (1)
- Hybrid Dynamical Systems (1)
- Hybridsystem (1)
- Hydrocarbon radicals (1)
- Hydrocarbons (1)
- Hydrogen (1)
- Hyperosmotic Stress (1)
- Hypothalamus (1)
- Hypothetical gauge bosons (1)
- Hypoxia (1)
- Hypoxie (1)
- IFN (1)
- IL-10 (1)
- IP3 (1)
- Icecube (1)
- Ideomotor Theory (1)
- Ideomotorik (1)
- IgG substitution therapy (1)
- Image Processing (1)
- Imatinib (1)
- Immune system (1)
- Immune-related adverse event (1)
- Immunologe (1)
- Immunology (1)
- Immunoprecipitation (1)
- Immuntherapie (1)
- Imo Bundesstaat (1)
- Imo State - Nigeria (1)
- Impella (1)
- Implicit and explicit reward learning (1)
- InSAR (1)
- InSAR height (1)
- Incontinentia pigmenti (1)
- Individualität (1)
- Induced apoptosis (1)
- Inducible Clindamycin Resistance (1)
- Induzierte pluripotente Stammzelle (1)
- Infectious disease (1)
- Inflammatio (1)
- Inflammatory Pain (1)
- Inflammatory diseases (1)
- Inflammatory pain (1)
- Information (1)
- Information Extraction (1)
- Information System (1)
- Information seeking and sharing (1)
- Information system (1)
- Informationsverarbeitung (1)
- Inhibition (1)
- Innovation (1)
- Input-Output-Tabelle (1)
- Insect flight (1)
- Insulin (1)
- Insulin-like Growth Factor I (1)
- Insulin-like growth factor-I (1)
- Integrine (1)
- Intention (1)
- Intentional Nonaction (1)
- Intentionale Nichthandlung (1)
- Interaction Design (1)
- Interactions (1)
- Interconnection (1)
- Interface Conductivity (1)
- Interfaces (1)
- Intergenerational income mobility (1)
- Intergenerationenmobilität (1)
- Intergenerative Einkommensmobilität (1)
- Interleukin-10 (1)
- Interleukin-6 (1)
- Invasion (1)
- Inverse Gaschromatographie (1)
- Invertebrate herbivory (1)
- Ionenkanal (1)
- Ionenleitfähigkeit (1)
- Ionic Liquid (1)
- Ionische Flüssigkeit (1)
- Ipilimumab (1)
- Iridate (1)
- Ischemic stroke (1)
- Isocyanate (1)
- Isolation (1)
- J-Aggregate (1)
- JAK2 (1)
- K-RAS (1)
- KIF (1)
- KIF11 (1)
- KM3NeT (1)
- KTaO3 (1)
- Kapillarelektrophorese (1)
- Kilombero (1)
- Kinect (1)
- Kinetic Self-assembly (1)
- Kleinsatellit (1)
- Klinisches Experiment (1)
- Knee (1)
- Knochenimplantat (1)
- Knochenkleber (1)
- Knochenregeneration (1)
- Knochenwachs (1)
- Knorpelbildung (1)
- Kohärente Multidimensionale Spektroskopie (1)
- Kokristallisation (1)
- Kollektive Invasion (1)
- Komplexität (1)
- Komponentenanalyse (1)
- Konditionierung (1)
- Konfidenzintervall (1)
- Konfokale Mikroskopie (1)
- Konforme Metrik (1)
- Kongo (1)
- Konische Durchschneidung (1)
- Korrelierte Fermionen (1)
- Krebs (1)
- Krebs <Medizin> (1)
- Kreditgenossenschaft (1)
- Kristallfeld (1)
- Körpergewicht (1)
- L1 reading comprehension (1)
- L2 reading comprehension (1)
- L2 reading motivation (1)
- LATE DEATHS (1)
- LC-HRESIMS (1)
- LC3-associated phagocytosis (1)
- LCD Pulse Shaper (1)
- LCD Pulsformer (1)
- LHC (1)
- LMICS (1)
- LSD1 (1)
- LST (1)
- La gestion des déchets (1)
- LaAlO3/SrTiO3 (1)
- Ladungstrennung (1)
- Ladungsträger (1)
- Ladungsträgerlokalisation (1)
- Lageregelung (1)
- Land Change Modeler (1)
- Landnutzungskartierung (1)
- Landsat time series (1)
- Lantana camara (1)
- Lanthantitanate (1)
- Laparoscopy (1)
- Large Hadron Collider (1)
- Laser Pulse Shaping (1)
- Laserpulsformung (1)
- Late mortality (1)
- Latin America (1)
- Latrophilin (1)
- Leaf traits (1)
- Learning and memory (1)
- Learning walk (1)
- Learning/physiology (1)
- Lebende Polymerisation (1)
- Lee Smolin (1)
- Leptonic (1)
- Lernen (1)
- Lernverhalten (1)
- Leseverstehen (1)
- Lewis-base adducts (1)
- Library Screening (1)
- Lichtabsorption (1)
- Lichtblattmikroskopie (1)
- Lichtheimia (1)
- Lichtscheibenmikroskopie (1)
- Lichtstreuung (1)
- Lidschlag (1)
- Lifetime spectroscopy (1)
- Ligand <Biochemie> (1)
- Light sheet microscopy (1)
- Limb development (1)
- Limb salvage (1)
- Limestone (1)
- Liquid Crystal (1)
- Liquid Crystals (1)
- Living Polymerisation (1)
- Llullaillaco Volcano (1)
- Lokalisation (1)
- Low energy electron microscopy LEEM (1)
- Low risk alcohol use (1)
- Low-income Countries (1)
- Lung (1)
- Lung disease, (1)
- Lunge (1)
- Lyapunov Stability (1)
- Lymph nodes (1)
- Lysine-specific methylase (1)
- Löslichkeit (1)
- M14 carboxypeptidasses (1)
- MASS (1)
- MCP1 (1)
- MDSC (1)
- MGMT promoter methylation (1)
- MI-RADS (1)
- MIBG (1)
- MMB (1)
- MMB complex (1)
- MODIS (1)
- MOF (1)
- MOLLI (1)
- MRI (1)
- MRI spectroscopy (1)
- MRSA (1)
- Maculinea butterfly (1)
- Magnesiumphosphate (1)
- Magnetic Resonance Imaging (1)
- Magnetic resonance imaging (1)
- Magnetische Eigenschaft (1)
- Magnetismus (1)
- Magnetit (1)
- Magnetometry (1)
- Magnetoresistance (1)
- Magnetowiderstand (1)
- Magnon (1)
- Makrokolonie (1)
- Male (1)
- Mamma carcinoma (1)
- Mammakarzinom (1)
- Management (1)
- Managementinformationssystem (1)
- Manganese Carbonyl ligands (1)
- Mangansilicide (1)
- Manöverintention (1)
- Masern-Virus (1)
- Masticatory mucosa (1)
- Mastoid process (1)
- Mathematik (1)
- Matter (1)
- Mc4r (1)
- Measles virus (1)
- Measurement error correlation (1)
- Measurement-based Analysis (1)
- Meat (1)
- Mechanisms (1)
- Mechanisms of Social Attention (1)
- Mechanismus (1)
- Mechanosensation (1)
- Media Psychology (1)
- Medical research (1)
- Medienkonsum (1)
- Megakaryopoese (1)
- Megakaryozytopoese (1)
- Melanom (1)
- Melt Electrowriting (1)
- Memory B cells (1)
- Meniskus (1)
- Meniskusimplantat (1)
- Mensch-Maschine-Kommunikation (1)
- Merger-specific Efficiency Gains (1)
- Mergers (1)
- Mergers and Acquisitions (1)
- Merkel cell carcinoma (MCC) (1)
- Merocyanine dyes (1)
- Mesenchymal stem/stromal cells (1)
- Messenger-RNAs (1)
- Messung (1)
- Metadynamik (1)
- Metal clusters (1)
- Metall-Isolator-Phasenumwandlung (1)
- Metallorganisches Netzwerk (1)
- Methicillin-resistant Staphylococcus aureus (1)
- Methodology (1)
- Metrics (1)
- Metrologie (1)
- Mfn2 KO mice (1)
- Microbiology and Infectious Disease (1)
- Midollo-Osseo (1)
- Migration (1)
- Mikroskopie (1)
- Mikrotubulus (1)
- Minimal change disease (1)
- Minimally invasive surgery (1)
- Missing Energy (1)
- Mitochondria (1)
- MnSi (1)
- Mobile genetic element (1)
- Model specification (1)
- Model-based Performance Prediction (1)
- Modell (1)
- Modifikation von Biokeramiken (1)
- Modular Hamiltonian (1)
- Modularer Hamiltonoperator (1)
- Molekulardynamik (1)
- Molekularstrahlepitaxie (1)
- Molekülsystem (1)
- Monoschicht (1)
- Monte Carlo simulation (1)
- Monte-Carlo-Simulation (1)
- Moral Hazard (1)
- Motivation (1)
- Motor behaviour (1)
- Mott Transistion (1)
- Mott-Isolator (1)
- Mott-Übergang (1)
- Mouse (1)
- Movement behavior (1)
- Mucor (1)
- Mucorales (1)
- Multi-Messenger (1)
- Multiferroics (1)
- Multiferroika (1)
- Multiphotonenmikroskopie (1)
- Multiple (1)
- Multiple myeloma (1)
- Multiple-Scattering (1)
- Multiplex PCR (1)
- Multiwavelength Astronomy (1)
- Muon spectrometers (1)
- Muscle function (1)
- Muscle power (1)
- Muster (1)
- Mutation (1)
- Myb-MuvB (1)
- Myrmecology (1)
- Myrmica ant non-equilibrium dynamics (1)
- N-heterocyclic olefins (1)
- N-terminal HSP90 inhibitors (1)
- NAFLD (1)
- NASH (1)
- NCH93 (1)
- NCI-H295R (1)
- NCO-sP(EO-stat-PO) (1)
- NF-Kappa-B (1)
- NF-κB/NFAT reporter cells (1)
- NFATc1 (1)
- NFκB (1)
- NHCs (1)
- NH\(_{3}\) (1)
- NIPAL4 (1)
- NIQs (1)
- NIR OLED (1)
- NLO Computations (1)
- NMR spectroscopy (1)
- NMR-Spektroskopie (1)
- NPY (1)
- Nachhaltigkeit (1)
- Nahfeldoptik (1)
- Nahrungserwerb (1)
- Nanoparticles (1)
- Nanostruktur (1)
- Naphthylisoquinoline (1)
- Naphthylisoquinoline alkaloids (1)
- Nasal Carriage (1)
- Necrotizing enterocolitis (1)
- Nectin‐2 (1)
- Neisseria gonorrhoeae (1)
- Neolithic period (1)
- Nephroblastom (1)
- Nephrogenese (1)
- Netherlands (1)
- Netzwerk (1)
- Neural Differentiation (1)
- Neural circuits (1)
- Neuroanatomie (1)
- Neurodevelopmental Disorder (1)
- Neuroimaging (1)
- Neuroinflammation (1)
- Neuroscience (1)
- Neutrino Detectors and Telescopes (experiments) (1)
- Neutrino Mass (1)
- Neutrinos (1)
- Nfatc1 (1)
- Nicht-kleinzelliges Bronchialkarzinom (1)
- Nigeria (1)
- Nivolumab (1)
- Nociceptor (1)
- Non-coding RNA (1)
- Non-smooth optimal control (1)
- Nonlinear Dynamics (1)
- Non‐ischaemic cardiogenic shock (1)
- Nuclear Medicine (1)
- Nucleus subthalamicus (1)
- Numerical Cognition (1)
- Nursing homes (1)
- OSCC (1)
- OSI (1)
- Oberflächenfunktionalisierung (1)
- Oberflächenphonon (1)
- Oberflächenphysik (1)
- Oberflächenplasmon (1)
- Object recognition (1)
- Oculomotor Muscles/physiology (1)
- Oncology (1)
- Operations Management (1)
- Optical spectroscopy (1)
- Optik (1)
- Optimal foraging (1)
- Optimale Kontrolle (1)
- Optogenetics (1)
- Oral anticoagulation (1)
- Ordered metal adsorbates on semiconductor surfaces (1)
- Ordinal Categorical Indictators (1)
- Organic and hybrid semiconductors (1)
- Organische Chemie (1)
- Oscillation (1)
- Outer membrane proteins (1)
- Overstatement models (1)
- OxPL (1)
- Oxide Heterostructure (1)
- Oxidized Phospholipids (1)
- Oxidized phospholipids (1)
- P(P) over-bar collisions (1)
- P-glycoprotein (1)
- P-gp (1)
- PA-flexed view (1)
- PALS (1)
- PCR (1)
- PD-1 (1)
- PD-L1 (1)
- PDF neurons (1)
- PET/CT (1)
- PID prevalence (1)
- PKD1 (1)
- PP collisions (1)
- PRKACA (1)
- PROMISE (1)
- PSMA (1)
- PSMA-RADS (1)
- PTEN (1)
- Parametric inference (1)
- Parkinson’s disease (1)
- Partial Least Squares Path Modeling (1)
- Particle accelerators (1)
- Particle tracking detectors (Gaseous detectors) (1)
- Particle-acceleration (1)
- Parvovirus (1)
- Paternal age and BMI effects (1)
- Pathogenesis (1)
- Pathogens (1)
- Patterns and drivers of invertebrate herbivory (1)
- Patterns and drivers of species diversity of phytophagous beetles (1)
- Patterns and drivers of species richness and community biomass of large mammals (1)
- Pavlovian-to-instrumental transfer (1)
- Pediatric Nuclear Medicine (1)
- Pediatric Patients (1)
- Peierls-Übergang (1)
- Pendeln (1)
- Pentixafor (1)
- Perception (1)
- Perowskit (1)
- Personalized medicine (1)
- Perturbative/Functional Renormalization Group (1)
- Perturbative/Funktionale Renormierungsgruppe (1)
- Perylenbisdicarboximide <Perylen-3,4:9,10-bis(dicarboximide)> (1)
- Perylenbisimide (1)
- Perylenbisimides (1)
- Perylene Bisimide (1)
- Perylene Bisimides (1)
- Pfadintegral (1)
- Pflanzen (1)
- Pflanzenhormone (1)
- Phagozytose (1)
- Pharmakokinetik (1)
- Pharmakotherapie (1)
- Phase- (1)
- Phenols (1)
- Phobie (1)
- Phosphatasen (1)
- Phosphoglykolat-Phosphatase (1)
- Phosphoglykolatphosphatase (1)
- Phospholipide (1)
- Phosphorylation (1)
- Photic (1)
- Photoelectron Spectroscopy (1)
- Photoelektronenspektroskopie (1)
- Photoemission electron microscopy PEEM (1)
- Photoluminescence (1)
- Photolumineszenz (1)
- Photoreceptor (1)
- Physical activity (1)
- Physiologie (1)
- Phytochemical investigations of a Congolese Ancistrocladus Liana (1)
- Phytochemie (1)
- Pigmentdispergierender Faktor (1)
- Plant signalling (1)
- Plants (1)
- Plasmaantrieb (1)
- Plasmamembranorganisation (1)
- Plasmon (1)
- Platzierungsalgorithmen (1)
- Poly(2-oxazolin)e (1)
- Polyethylenglykole (1)
- Polygonum cuspidatum (1)
- Polymer-drug interaction (1)
- Polymere (1)
- Polymers (1)
- Polynomial Factor Models (1)
- Polyphenole (1)
- Polysaccharide (1)
- Poplars (1)
- Positron annihilation spectroscopy (1)
- Positron-Emission Tomography (1)
- Postoperative complications (1)
- Preconcentration (1)
- Predictive Analytics (1)
- Prefrontal cortex (1)
- Premna (1)
- Prescriptive Analytics (1)
- Preterm birth (1)
- Prevalence (1)
- Prior information (1)
- Privatsphäre (1)
- ProQ (1)
- Probability theory (1)
- Prognostic markers (1)
- Prognostic scoring system (1)
- Prospektives Gedächtnis (1)
- Protease-sensitive release (1)
- Protein (1)
- Protein Kinase D (1)
- Protein Kinase D 1 (1)
- Protein folding (1)
- Protein kinase D3 (PKD3) (1)
- Proteinkinase A (1)
- Proteinkinase D (1)
- Proteomics Analysis of Complexes (1)
- Proteotype (1)
- Proteus vulgaris (1)
- Proton-Proton Collisions (1)
- Präsenz (1)
- Präzisionsmessung (1)
- Psychiatric disorders (1)
- Psychiatrie (1)
- Psychologie (1)
- Psychology (1)
- Psychometrie (1)
- Psychomotor Performance/physiology (1)
- Pulmonary function tests (1)
- Pulsed laser deposition (1)
- Punktwolke (1)
- Quality assessment of antimalarial medicines from the Congo (1)
- Quality ccontrol (1)
- Quality-control (1)
- Qualität der Abschlussprüfung (1)
- Qualität der Rechnungslegung (1)
- Qualitätskontrolle (1)
- Quanten-Hall-Effekt (1)
- Quanten-Monte-Carlo (1)
- Quanteninformation (1)
- Quantenpunkt (1)
- Quantifizierung (1)
- Quantitative Mikroskopie (1)
- Quantum Hall effect (1)
- Quantum electrodynamics (1)
- Quinolone amides (1)
- R package (1)
- RADS (1)
- RAS Evaluation (1)
- RCT (1)
- REDD1 (1)
- RFID (1)
- RNA Sequencing (1)
- RNA expression (1)
- RNA metabolism (1)
- RNA protein interactions (1)
- RNA secondary structures (1)
- RNA sequencing (1)
- RNA-Seq (1)
- RNA-seq transcriptome (1)
- RNAi (1)
- RNAlater (1)
- RNS (1)
- ROR1 (1)
- ROS (1)
- RSV-A ON1 (1)
- RT-qPCR (1)
- Radiation (1)
- Radiation Protection (1)
- Radiation exposure (1)
- Radiation-associated Cancer Risk (1)
- Radiographs (1)
- Radiotherapy (1)
- Raphe (1)
- RapidEye (1)
- Raumwahrnehmung (1)
- Regelbasiertes Modell (1)
- Regimes (1)
- Regional trade (1)
- Regionaler Arbeitsmarkt (1)
- Regionaler Handel (1)
- Regionalpolitik (1)
- Regionalwirtschaft (1)
- Regulierung (1)
- Reiz (1)
- Relativistic heavy-ion collisions (1)
- Reminder e-mails (1)
- Remnant RX J1713.7-3946 (1)
- Remote Sensing (1)
- Reporter Cells (1)
- Reporterzellen (1)
- Rescue behaviour (1)
- Research Article (1)
- Respiratory tract infection (1)
- Retinopathy (1)
- Rhizomucor (1)
- Rhizopus (1)
- RhoA (1)
- Rhodopsin (1)
- Ribozyme-catalyzed RNA labeling (1)
- Ringöffnungspolymerisation (1)
- Risk (1)
- Risk Assessment (1)
- Roboter (1)
- Robotics (1)
- Runge-type Theorems (1)
- Ruthenium (1)
- Ruxolitinib (1)
- Röntgenastronomie (1)
- Röntgendiffraktometrie (1)
- S. aureus (1)
- SASHA (1)
- SB332235 (1)
- SIX1 (1)
- SPOT-6 (1)
- SR/mitochondria metabolic feedback (1)
- SREBP (1)
- SSR42 (1)
- SSTR (1)
- SSTR-RADS (1)
- ST 772 (1)
- ST18 (1)
- SWAT (1)
- SWAT model (1)
- Saccades/physiology (1)
- Salmo trutta fario (1)
- Satellit (1)
- Scarabaeidae (1)
- Scattering (1)
- Scenario analysis (1)
- Scheme for solving optimal control problems (1)
- Schlichte Funktion (1)
- Schmerzforschung (1)
- Schmerztherapie (1)
- Secondary stroke prevention (1)
- Sediment (1)
- Segmentation (1)
- Sekundärprävention (1)
- Selbstassemblierung (1)
- Self-assembly (1)
- Self-navigation (1)
- Self-renewal (1)
- Semantics (1)
- Semantik (1)
- Sense of Agency (1)
- Sensor Fusion (1)
- Sentinel-2 (1)
- Septine (1)
- Sequential quadratic Hamiltonian scheme (1)
- Serine proteases (1)
- Server (1)
- Sex chromosome (1)
- Sex determination (1)
- Sexual development and function (1)
- ShMOLLI (1)
- Shelf-life (1)
- Shell (1)
- Sibling donor (MSD) (1)
- Silver (1)
- Single Molecule Localization Microscopy (SMLM) (1)
- Single-Photon (1)
- Situationsbewusstsein (1)
- Skin (1)
- Skull (1)
- Small RNA (1)
- Small interfering RNAs (1)
- Small-Gain Theorem (1)
- Smoking (1)
- Social Cognition (1)
- Social Cueing (1)
- Social Web (1)
- Societe Francaise (1)
- Soft tissues (1)
- Software (1)
- Software Defined Networking (1)
- Software Performance Engineering (1)
- Software-defined Networking (1)
- Softwarisierte Netze (1)
- Solid tumors (1)
- Somites (1)
- Soziale Aufmerksamkeit (1)
- Soziale Mobilität (1)
- Soziale Software (1)
- Spatial Cognition (1)
- Spatially resolved 2D spectroscopy (1)
- Species delimitation (1)
- Species richness (1)
- Specific Phobia (1)
- Specimen grinding (1)
- Speckle tracking (1)
- Spezifische Phobien (1)
- Spezifische Wärme (1)
- Sphingosine-1-phosphate (1)
- Sphingosine-1-phosphats (1)
- Spin flip (1)
- Spin-Bahn-Kopplung (1)
- Spin-Orbit interaction (1)
- Spin-Phonon Kopplung (1)
- Spin-chemistry (1)
- Spin-phonon coupling (1)
- Spinflüssigkeit (1)
- Stability (1)
- Stabilität (1)
- Stammzelle (1)
- Standardmodell <Elementarteilchenphysik> (1)
- Staphylococcus (1)
- Staphylococcus aureus USA300 (1)
- Starke Kopplung (1)
- Stechameisen (1)
- Stem cell (1)
- Stem-cell biotechnology (1)
- Stenosis degree (1)
- Stenosis length (1)
- Stereochemistry (1)
- Sternpolymere (1)
- Stigmatisierung (1)
- Stimme (1)
- Stimmverarbeitung (1)
- Stimulation (1)
- Stoffwechsel (1)
- Stokes-shifted fluorescence emission (1)
- Strains (1)
- Strange Baryon Production (1)
- Strategisches Management (1)
- Stratigraphy (1)
- Streptococcus agalactiae (1)
- Stroke (1)
- Stroke unit (1)
- Stromal cells (1)
- Strontiumtitanat (1)
- Strontiumvanadate (1)
- Structural Equation Modeling (1)
- Structural elucidation (1)
- Structural equation modelling (1)
- Structure elucidation (1)
- Struktur-Aktivitäts-Beziehung (1)
- Strukturgleichungsmodell (1)
- Sub-Saharan Africa (1)
- Subject (1)
- Subtercola vilae (1)
- Success Factors (1)
- Supernova (1)
- Support vector machine (1)
- Supportive therapy (1)
- Supramolecular Block Copolymers (1)
- Supramolecular aggregates (1)
- Supramolekulare Aggregate (1)
- Supramolekulare Struktur (1)
- Surface Plasmon (1)
- Surface Raman spectroscopy (1)
- Surgical and invasive medical procedures (1)
- Surgical oncology (1)
- Survey (1)
- Suspensionskultur (1)
- Swine (1)
- Syap1 knockout (1)
- Symmetry (1)
- Systemic sclerosis (1)
- T cell (1)
- T cell receptor (1)
- T cell suppression (1)
- T cells (1)
- T-cell lymphoma (1)
- T1 mapping (1)
- TDDFT (1)
- TDMT (1)
- TEV (1)
- TFP (1)
- TGFβ/BMP signaling (1)
- TLR2 (1)
- TLR3 (1)
- TLR4 (1)
- TMEM16F (1)
- TNF (1)
- TNF-alpha (1)
- TNFR family costimulatory receptors (1)
- TNFR2 (1)
- TNFR2 agonists (1)
- TNFR2 antagonism (1)
- TNFα (1)
- TNNI3 (1)
- TP53 (1)
- TPCA1 (1)
- TRAF1 (1)
- TRAF2 (1)
- TRAILR1 (1)
- TRAILR2 (1)
- TRPA1 channel (1)
- TWEAK (1)
- Tagesrhythmus (1)
- Tamoxifen (1)
- TanDEM-X (1)
- Tc-99m-MAG3 Scans (1)
- TeV energies (1)
- Telemedizin (1)
- Temozolomide (1)
- Terramechanics (1)
- Theoretische Chemie (1)
- Therapeutisches System (1)
- Therapie (1)
- Therapiesimulation (1)
- Thermodynamik (1)
- Thin Films (1)
- Thin intermetallic films (1)
- Thiotepa-busulfan-fludarabine (TBF) (1)
- Thrombo-inflammation (1)
- Thrombosis (1)
- Thrombozytopenie (1)
- Thrust Vector Control (1)
- Tiermodell (1)
- Time resolved measurements (1)
- Time-resolved photoemission electron microscopy (1)
- Time-resolved photoluminescence (1)
- Tissue engineering (1)
- Toddler (1)
- Top quark (1)
- Topological insulators (1)
- Topologische Isolatoren (1)
- Topologischer Isolator (1)
- Torque (1)
- Total Factor Productivity (1)
- Tourenplanung (1)
- Tractography (1)
- Transcription (1)
- Transcription factor NRF1 (1)
- Transcriptomic (1)
- Translation (1)
- Translation Initiation (1)
- Translational research (1)
- Transplantat-Wirt-Reaktion (1)
- Transposable element (1)
- Transverse-Momentum (1)
- Trees (1)
- Tregs (regulatory T cells) (1)
- Triquinacenderivate (1)
- Triticeae (1)
- Triticum aestivum (1)
- Trousseau's syndrome (1)
- Trypanosomiase (1)
- Tryptophan hydroxylase (1)
- Tubulin (1)
- Tumor (1)
- Tumorzelle (1)
- Twin Domains (1)
- Twin Suppression (1)
- Two-color pump-probe spectroscopy (1)
- U-Net (1)
- USA (1)
- UV-VIS-Spektroskopie (1)
- UV/Vis spectroscopy (1)
- UV–Vis (1)
- Ultrakurzzeitspektroskopie (1)
- Ultrarelativistic Heavy-Ion (1)
- Ultrashort echo time - UTE (1)
- Umwelt (1)
- Unconventional/Topological superconductivity (1)
- Universal Functions (1)
- Unkonventionelle/Topologische Supraleitung (1)
- Unnötige Warnung (1)
- Unrelated donor (UD) (1)
- Unternehmensverfassung (1)
- User Behavior (1)
- User-Guidelines (1)
- Ustilago maydis (1)
- V-ATPase (1)
- VLBW (1)
- VMAT (1)
- Vakuole (1)
- Valentine Leukocidin Genes (1)
- Valgus osteoarthritis (1)
- Value at Risk (1)
- Vascularized (1)
- Vaskularisation (1)
- Vcsels (1)
- Verarbeitende Industrie (1)
- Verbundwerkstoff (1)
- Verkehrspsychologie (1)
- View (1)
- Virtuelle Realität (1)
- Visuelle Aufmerksamkeit (1)
- Visuo-tactile congruency (1)
- Voice Processing (1)
- W & Z bosons (1)
- W-Boson (1)
- WSS (1)
- Wahrscheinlichkeitstheorie (1)
- Warnung (1)
- Waste management (1)
- Weak-Interactions (1)
- WebGIS (1)
- Wechselwirkungen (1)
- Wheel (1)
- White matter lesions (1)
- Wide-gap-Halbleiter (1)
- Wilms tumor (1)
- Wilms-Tumor (1)
- Winkelaufgelöste Photoemission mit harten Röntgenstrahlen (1)
- Wire chambers (MWPC, Thin-gap chambers, drift chambers, drift tubes, proportional chambers etc) (1)
- Wirkstoff (1)
- Wirkstofftestung (1)
- Wirtschaftliche Integration (1)
- Wirtschaftsinformatik (1)
- Woodhouse-Sakati Syndrom (1)
- Woodhouse-Sakati sydrome (1)
- Wundheilung (1)
- X-ray radiography (1)
- XRD (1)
- YAP (1)
- Yoga (1)
- Young Adult (1)
- ZF1 degradation assay (1)
- ZFAND1 (1)
- Zahnbehandlungsphobie (1)
- Zebrafish (1)
- Zell Migration (1)
- Zelloberfläche (1)
- Zentralasien (1)
- Zinc (1)
- Zinkselenid (1)
- ZnO-NP (1)
- Zusammenstoß (1)
- Zwillingsbildung (1)
- [68Ga]Pentixafor (1)
- \(^{177}\)Lu-OPS201 (1)
- abdominal surgery (1)
- absolute bioavailability (1)
- accessory medulla (1)
- accidents (1)
- accumulation (1)
- accuracy (1)
- acetate (1)
- acid ceramidase (1)
- acid ceramidase inhibitor ceranib-2 (1)
- acoustic radiation force impulse imaging (1)
- acrophobia (1)
- actin cytoskeleton (1)
- actin-binding proteins (1)
- action control (1)
- activated delayes flourescence (1)
- activation (1)
- active galactic nuclei (1)
- active ingredients (1)
- acute kidney injury (1)
- acute lymphoblastic leukemia (1)
- adalimumab (1)
- adaptive choice-based conjoint (1)
- additive manufacturing (1)
- adenoma (1)
- adenotonsillectromy (1)
- adipocyte (1)
- adipose (1)
- adiposity (1)
- administrative boundary (1)
- adrenal gland (1)
- adrenocortical carcinoma (1)
- adult attention deficit/hyperactivity disorder (adult ADHD) (1)
- advanced breast cancer (1)
- aerobic fitness (1)
- affect bursts (1)
- age at onset (1)
- age groups (1)
- age-related macular degeneration (1)
- agroecology (1)
- airway management (1)
- alcohol use disorder (1)
- alkaloids-Quinoid (1)
- alkynes (1)
- alternative splicing (1)
- altitudinal gradients (1)
- alveolar epithelium (1)
- amine borane dehydrocoupling (1)
- aminergic neurons (1)
- amodiaquine (1)
- amorphous solid dispersion (1)
- amphiphilic block copolymer (1)
- amsacrine (1)
- amyloidoma (1)
- amyotrophic lateral sclerosis (1)
- amyotrophic lateral sclerosis (ALS) (1)
- anakinra (1)
- analysis of variance (1)
- animal behaviour (1)
- animal physiology (1)
- animal research (1)
- anime (1)
- anomaly detection (1)
- anorexia nervosa (1)
- anti-contactin-1 (1)
- anti-depressant drug (1)
- antibacterial (1)
- antibacterial activity (1)
- antibiofilm (1)
- antibiotic (1)
- antibiotic resistance (1)
- anticancer (1)
- anticipation (1)
- antifungal (1)
- antifungal susceptibility (1)
- antimicrobial compounds (1)
- antimicrobial susceptibility (1)
- antitrypanosomal (1)
- anti‐aging (1)
- anxiety (1)
- anxiety generalization (1)
- anxiolytics (1)
- aortocaval fistula model (1)
- appraisal theory of emotion expression (1)
- arctic greening (1)
- arenes (1)
- artemether - lumefantrine (1)
- arterial thrombus formation (1)
- artifacts (1)
- artificial intelligence (1)
- artificial light at night (1)
- aspergillosis (1)
- asylum seekers (1)
- asylum status (1)
- atmospheric waves (1)
- atrial fibrillation (1)
- attention (1)
- auto-planning (1)
- autoantibody (1)
- autobiography (1)
- autoimmune disease (1)
- autoimmune encephalitis (1)
- autonomic nervous system (1)
- autosomal recessive (1)
- auxin (1)
- axillary dissection (1)
- back reaction (1)
- bacterial pathogen (1)
- bacterial physiology (1)
- bacteriology (1)
- baghdadite (1)
- balancing trade-offs (1)
- bank mergers (1)
- bariatric surgery (1)
- behavior (1)
- behavioral plasticity (1)
- beige adipocytes (1)
- bench press (1)
- bending strength (1)
- benige tumor (1)
- beta-lactam antibiotics (1)
- biceps tendinitis (1)
- biceps tendon (1)
- big earth data (1)
- bilateral internal carotid artery stenosis (1)
- binary species (1)
- bioavailability (1)
- bioceramics (1)
- biofabricated vascular graft (1)
- biofilm architecture (1)
- bioinformatics (1)
- bioinformatics tool (1)
- bioink (1)
- bioinks (1)
- biokinetics (1)
- biological rhythm (1)
- biological scaffolds (1)
- biological techniques (1)
- biologics (1)
- biomarker (1)
- biomarker signature (1)
- biomaterial ink (1)
- biomaterials (1)
- biomaterials – cells (1)
- biomechanics (1)
- biomolecular processes (1)
- biophysics (1)
- bioreactor (1)
- biotechnology (1)
- biotic interaction (1)
- bispecific antobodies (1)
- bisulfite pyrosequencing (1)
- black trout syndrome (1)
- bladder (1)
- blazars (1)
- bleeding (1)
- blinatumoman (1)
- blinking (1)
- blocking phagocytosis (1)
- blood (1)
- blood brain barrier (1)
- blood cerebrospinal fluid barrier (1)
- blood-cerebrospinal fluid barrier (1)
- bohrbar (1)
- bone critical size defect (1)
- bone graft substitutes (1)
- bone marrow stromal cells (1)
- bone metastases (1)
- bone microenvironment (1)
- bone tissue engineering (1)
- bone wax (1)
- boolean modeling (1)
- boreholes (1)
- borohydrides (1)
- boronate (1)
- boronic acid (1)
- borylenes (1)
- bottom-up processing (1)
- brain (1)
- brain activity (1)
- brain development (1)
- brain disorders (1)
- brain endothelial cell (1)
- brain endothelial cells (1)
- brain networks (1)
- brain plasticity (1)
- brain tumor (1)
- breast cancer (1)
- bridge-to-transplant (1)
- bronchoalveolar lavage fluid (1)
- bronchopulmonary dysplasia (1)
- broth microdilution (1)
- brown trout (1)
- building (1)
- bullae (1)
- burn severity (1)
- burnt-wood (1)
- calcium (1)
- calcium phosphate (1)
- calnexin (1)
- calving front (1)
- cancer imaging (1)
- capillary zone electrophoresis (1)
- carabid beetles (1)
- carbenes (1)
- carbon (1)
- carbon monoxide (1)
- cardiac autonomic nervous system (1)
- cardiac metabolism (1)
- cardiac remodelling (1)
- cardiac surgery (1)
- cardiac tissue (1)
- cardiolipin (1)
- cardiomyocytes (1)
- cardiopulmonary bypass (1)
- cardiovascular genetics (1)
- cardiovascular risk factors (1)
- care (1)
- cartilage repair (1)
- catalysis (1)
- catchment (1)
- catheterization (1)
- catheters (1)
- cattle (1)
- caveolin-1 (Cav-1) (1)
- cefotiam (1)
- cell biology (1)
- cell death and immune response (1)
- cell death in the nervous system (1)
- cell differentiation (1)
- cell growth (1)
- cell migration (1)
- cell signalling (1)
- cell therapy and immunotherapy (1)
- cellular model (1)
- cellular neuroscience (1)
- ceramide (1)
- cerebral microbleeds (1)
- cerebrospinal fluid (1)
- cervical dystonia (1)
- channelrhodopsins (1)
- chaperones (1)
- charge carrier localization (1)
- charge recombination (1)
- charge separation (1)
- chemical crosslinking (1)
- chemical engineering (1)
- chemokine (1)
- chemokine receptor (1)
- child behavior (1)
- chimeric antigen receptor (1)
- chirality (1)
- chirality-induced spin selectivity (1)
- chlamydia (1)
- chlorophyll fluorescence imaging (1)
- cholesterol (1)
- cholesterol 25 hydroxylase (1)
- cholesteryl ester (1)
- chondrocyte (1)
- chondrogenesis (1)
- chronic kidney disease (1)
- chronic kidney disease (CKD) (1)
- chronic non-bacterial osteomyelitis (1)
- circRNA (1)
- circadian clock (1)
- circadian rhythm (1)
- circadian rhythms (1)
- circular transcriptome sequencing (1)
- cisplatin (1)
- claudin-5 (1)
- click chemistry (1)
- climate extremes (1)
- clinical characteristics (1)
- clinical imaging (1)
- clinical outcome (1)
- clinical pharmacy (1)
- clinical trial (1)
- closed-loop systems (1)
- cluster analysis (1)
- co-culture (1)
- coagulation system (1)
- coastline (1)
- cocrystal (1)
- cognitive control (1)
- coherence (1)
- coherent risk measures (1)
- cold adaptation (1)
- collagen (1)
- collagen sponge (1)
- collective invasion (1)
- collimator (1)
- collodion baby (1)
- collybistin (1)
- colonization (1)
- commission error (1)
- common diseases (1)
- comparative genomics (1)
- comparison (1)
- competition (1)
- complement deposition (1)
- complement factor H (1)
- complex DNA damage (1)
- composite material (1)
- composition (1)
- computational science (1)
- computer-mediated communication (1)
- computerized tomography (1)
- concealed information test (1)
- conditioning (1)
- congruency sequences (1)
- conjugation (1)
- consensus (1)
- conservation (1)
- constructed trade-offs (1)
- context-based teaching (1)
- contextual fear conditioning (1)
- continuous theta burst stimulation (cTBS) (1)
- continuum limit (1)
- control levels (1)
- convolutional neural network (1)
- copeptin (1)
- coping (1)
- copy number variation (1)
- coronary heart disease (1)
- correspondence (1)
- cortical excitability (1)
- cortical silent period (1)
- cortisol (1)
- cosmology (1)
- count time series (1)
- covalent and site-specific RNA labeling (1)
- cristal engeneering (1)
- crop statistics (1)
- cross-coupling (1)
- cross-sectional study (1)
- cryosphere (1)
- cryostructured scaffolds (1)
- crystal growth (1)
- crystallization (1)
- crystallography (1)
- curcumin (1)
- curvature (1)
- curved hydrocarbons (1)
- cuticular permeability (1)
- cyclase-associated protein (1)
- cyclase-associated protein 2 (1)
- cyclic compounds (1)
- cyclophosphamide (FLAMSA) (1)
- cytokinesis (1)
- cytoskeleton (1)
- cytotoxic (1)
- daratumumab (1)
- data structure (1)
- data warehouse (1)
- dead-wood enrichment (1)
- decay (1)
- decellularization (1)
- deception (1)
- deep learning (1)
- default-interventionist framework (1)
- definition (1)
- dehydrocoupling (1)
- dehydrogenaticve borylation (1)
- democracy (1)
- democracy profiles (1)
- dendritic cell (1)
- denosumab (1)
- depth dose curves (1)
- designer cell (1)
- desk-based (1)
- desmin (1)
- desmin-related myopathy (1)
- desminopathy (1)
- desmoglein (1)
- desmoplastic small round cell tumor (1)
- desmosome (1)
- detrended fluctuation analysis (1)
- deubiquitinases (1)
- developmental forms (1)
- dexamethasone (1)
- diabetes (1)
- diacylglycerol (1)
- diacylglycerol (DAG) (1)
- dialysis adequacy (1)
- diazadiborinines (1)
- diborane(6) (1)
- diboranes (1)
- diboration (1)
- diborene (1)
- diborenes (1)
- diborynes (1)
- differentiation (1)
- differentiation potential (1)
- diffuse large B-cell lymphoma (1)
- diffusion weighted mri (1)
- digital health (1)
- diluted magnetic Semiconductor (1)
- dimeric peptide (1)
- direct muss spectrometric profiling (1)
- discrete systems (1)
- disease genetics (1)
- disease modelling (1)
- dissolution rates (1)
- distractor-response binding (1)
- distributed control (1)
- distributed learning (1)
- distributions (1)
- diversity gradients (1)
- document analysis (1)
- domain-specific language (1)
- donor (1)
- donor-acceptor systems (1)
- dorsal root ganglion (1)
- dose individualization (1)
- dosimetry (1)
- double arc (1)
- doxorubicin (1)
- drillable (1)
- drivers and patterns of diversity and herbivory (1)
- driving simulation (1)
- drought (1)
- drug release (1)
- drug resistance evolution (1)
- dual abbindend (1)
- dual setting (1)
- dual setting system (1)
- dualsteric (1)
- duchenne muscular dystrophy (1)
- duplication-deficiency (1)
- dyads (1)
- dyes (1)
- dynamic facial emotion expression (1)
- dystonia (1)
- e(+)e(-) Collisions (1)
- e-learning (1)
- early brain injury (1)
- early-life stress (1)
- earlywood (1)
- eccentric hypertrophy (1)
- echocardiography (1)
- ecosystem service (1)
- ecosystem services (1)
- education system (1)
- effective point of measurement (1)
- efficient intervention points (1)
- eindimensionale Systeme (1)
- electrical resistivity tomography (1)
- electrochemistry (1)
- electron-precise diborates (1)
- electronic properties and materials (1)
- electrospun fibers (1)
- elementary body (1)
- eletrhydrodynamic (1)
- elite (1)
- emergency care (1)
- emission (1)
- emotion (1)
- emotion enactment (1)
- emotion processing (1)
- emotion recognition (1)
- emotional behavior (1)
- emotions (1)
- emulsions oil-in-water (1)
- en bloc transfer (1)
- enantiomers (1)
- enbrel (1)
- end-stage renal disease (1)
- endocytosis (1)
- endothelial cells (1)
- endothelin-1 (1)
- endurance (1)
- endurance exercise (1)
- endurance training (1)
- enercy-richness hypothesis (1)
- energy homeostasis (1)
- enhancer (1)
- environmental justice (1)
- environmental sciences (1)
- environmental sustainability (1)
- enzyme mechanism (1)
- enzymes (1)
- epidemiology (1)
- epidural block (1)
- epithelial (1)
- epithelial-mesenchymal transition (1)
- epithelial-to-mesenchymal transition (1)
- error estimation (1)
- estimation error (1)
- etanercept (1)
- ethics (1)
- eugenol (1)
- evapotranspiration (1)
- event-related potentials (1)
- evolutionary ecology (1)
- evolutionary genetics (1)
- exciton (1)
- exciton dynamics (1)
- exciton-polariton (1)
- exercise intervention (1)
- expansion microscopy (1)
- expected value of control (1)
- external stimuli (1)
- extinction (1)
- extinction dynamics (1)
- extracellular domain (1)
- extramedullary hematopoiesis (1)
- extreme phenotypes (1)
- eye movement (1)
- eye movements (1)
- eye-tracking (1)
- fMRI (1)
- fMRT (1)
- face (1)
- face-voice integration (1)
- faces (1)
- fan culture (1)
- fault detection (1)
- fear (1)
- fear conditioning (1)
- fear learning (1)
- febrile seizures (1)
- feminist rap (1)
- femoral head (1)
- fertility (1)
- fibre length (1)
- fibroblast (1)
- fibromyalgia (1)
- fibrotest (1)
- field-induced surface hopping (1)
- fission (1)
- flash freezing (1)
- fliegende Toilette (1)
- flora (1)
- flourescence quantum yield (1)
- flu-like symptoms (1)
- fluconazole (1)
- fluerescence (1)
- fluidics (1)
- fluorenscence (1)
- fluorescence microscopy (1)
- fluorescent probes (1)
- fluorine (1)
- fluoroarene (1)
- fluorogen-activating RNA aptamer (FLAP) (1)
- fluoroquinolone (1)
- fluxosome (1)
- fly-tipping (1)
- flying toilet (1)
- folda-dimer (1)
- follistatin 288 (FST288) (1)
- follistatin 315 (FST315) (1)
- food colorings (1)
- food resources (1)
- foraging patterns (1)
- forensic sample (1)
- forest ecology (1)
- forest fire (1)
- forest management (1)
- forest resources inventory (1)
- formation control (1)
- fractional variability (1)
- fracture (1)
- fragmentation functions (1)
- free choice (1)
- free movement (1)
- free radical polymerization (1)
- friut fly behaviour (1)
- full arc (1)
- fully convolutional neural networks (1)
- function (1)
- functional MRI (1)
- functional analysis (1)
- functional connectivity (1)
- functional training (1)
- fungal ecology (1)
- fungal evolution (1)
- fungal molecular diagnostics (1)
- fungal rhodopsins (1)
- funktionale Präpolymere (1)
- games (1)
- gangliosides and lipid rafts (1)
- gastric-bypass surgery (1)
- gastrointestinal cancer (1)
- gastrointestinal tract (1)
- gauge/gravity duality (1)
- gaze control (1)
- gekrümmte Kohlenwasserstoffe (1)
- gem-bisboronates (1)
- gene alleles (1)
- gene expression analysis (1)
- gene family evolution (1)
- gene network (1)
- gene regulation (1)
- gene regulation in immune cells (1)
- genetic codon expansion (1)
- genetic counselling (1)
- genetic engineering (1)
- genetic recombination (1)
- genetics of the nervous system (1)
- genome (1)
- genome analysis (1)
- genome-wide association studies (1)
- genomic imprinting (1)
- genomics (1)
- genotoxicity (1)
- glacier front (1)
- glacier terminus (1)
- glia cells (1)
- glioblastoma multiforme (GBM) (1)
- glioma (1)
- global (1)
- global change (1)
- glucose transporter (1)
- glycine transporter 2 (1)
- glycoprotein Ibα (1)
- glyvine uptake (1)
- graft vs. host disease (1)
- graft-versus host (1)
- graft-versus-host-disease (1)
- granules (1)
- gravitational waves (1)
- green fluorescence protein (GFP) (1)
- ground penetrating radar (1)
- ground-dwelling predators (1)
- growth (1)
- growth patterns (1)
- growth ring width (1)
- guanylyl cyclase (GC) (1)
- guided bone regeneration (1)
- guideline adherent treatment (1)
- guidelines (1)
- gustatory dysfunction (1)
- gut–liver axis (1)
- hA<sub>3</sub>AR (1)
- habit (1)
- habit strength (1)
- hadronic Recoil (1)
- hadronischer Rückstoß (1)
- haematopoietic stem cell (1)
- halogens (1)
- hard x-ray photoemission (1)
- head and neck squamous cell carcinoma (1)
- heart rate variability (1)
- heart-to-mediastinum ratio (1)
- heat wave (1)
- helical molecules (1)
- helicenes (1)
- hematopoietic stem cell transplantation (1)
- heme oxygenase-1 (1)
- hemicraniectomy (1)
- hemodiafiltration (1)
- hemodialysis (1)
- hemophagocytosis (1)
- hemorrhagic (1)
- hemostasis (1)
- henoch-schönlein purpura (1)
- hepatitis B virus (1)
- hereditary breast and ovarian cancer (1)
- heterocycles (1)
- heterotypic scaffold design (1)
- heuristics (1)
- hiPSC aggregation (1)
- high LET irradiation (1)
- high efficiency (1)
- high risk (1)
- high-intensity training (1)
- high-performance sports (1)
- high-resolution tandem mass spectrometry (1)
- hip fracture (1)
- hippocampus (1)
- histogenesis (1)
- histological subtype (1)
- histone H2AX (1)
- historical document analysis (1)
- historical printings (1)
- homogeneous catalysis (1)
- homogenization (1)
- honeybee (1)
- honeybees (1)
- hospital exemption (1)
- hospital-acquired methicillin-resistant Staphylococcus aureus (1)
- human adipose-derived stromal cells (1)
- human cerebral endothelial cells (1)
- human plasma (1)
- human xenografted mouse models (1)
- hybrid fabrication (1)
- hybrid materials (1)
- hydrogels (1)
- hydrological regime (1)
- hydroxyapatite (1)
- hydroxylation (1)
- hyperosmolality (1)
- hyperpersonal communication (1)
- hypertension (1)
- hypothermia (1)
- hypoxia (1)
- iGC (1)
- iPSC (1)
- ichthyology (1)
- ichthyosis (1)
- identification (1)
- iliac crest (1)
- illness-death model (1)
- image processing (1)
- imaging PAM (1)
- imiquimod (1)
- immediate-early gene (1)
- immune evasion (1)
- immunity (1)
- immunocompetent skin (1)
- immunotherapy of cancer (1)
- implant (1)
- impurity profiling (1)
- in situ microscopy (1)
- in vitro model (1)
- in vitro models (1)
- in vitro selection from a structured RNA library (1)
- incentive salience (1)
- incidence (1)
- individual response (1)
- individualization (1)
- indole-3-acetic acid (1)
- indolylpyrimidylpiperazines (1)
- induced pluripotent stem cells (1)
- infection biology (1)
- infections (1)
- infectious diseases (1)
- inflammatory gene (1)
- inflation (1)
- information retrieval (1)
- information sharing (1)
- inherited cardiomyopathies (1)
- inherited macrothrombocytopenia (1)
- inhibition (1)
- inhibitor (1)
- injectable in situ gelling slow release system (1)
- injection site reactions (1)
- injury (1)
- inmates (1)
- innate immune evasions (1)
- insect abundance (1)
- insect collection (1)
- insurance medicine (1)
- intact bone imaging (1)
- integrative management strategy (1)
- integrin α2 (1)
- integrins (1)
- interactions (1)
- intercomparison (1)
- interface (1)
- interface conductivity (1)
- interferon beta (1)
- interleukin (1)
- interleukin-6 (1)
- intermediate dose Ara-C (1)
- intermediate filaments (1)
- intermittent exercise (1)
- intermolecular applications of ribozymes (1)
- internal carotid artery stenosis (1)
- intersession experiences (1)
- intersession processes (1)
- interval training (1)
- intervention point analyzing (1)
- intestine (1)
- intracellular bacterial pathogens (1)
- intracerebral hemorrhage (1)
- intracranial bleeding (1)
- invasive aspergillosis (1)
- inventory (1)
- iodine (1)
- ionization chambers (1)
- ionization energy (1)
- ionization potential (1)
- iron metabolism (1)
- ischemia reperfusion injury (1)
- ischemia time (1)
- isotropic hyper fine coupling (1)
- jet shapes (1)
- jet stream (1)
- jets (1)
- keratinocytes (1)
- key structure - fluorescence activation relationships (SFARs) (1)
- kidney (1)
- kidney development (1)
- kinesin (1)
- kinesthesia (1)
- kolorektales Karzinom (1)
- koronare Herzerkrankung (1)
- la durabilité environnementale (1)
- labour market (1)
- lactate threshold training (1)
- lag effect (1)
- land sharing (1)
- land surface (1)
- land use (1)
- land-cover area (1)
- language development (1)
- language in media (1)
- language intervention (1)
- late onset sepsis (1)
- late positive potential (1)
- lateral process of the talus (1)
- latewood (1)
- lattice forces (1)
- leaf width (1)
- learner characteristics (1)
- learning (1)
- les toilettes volantes (1)
- library screening (1)
- lichen planus (1)
- lifestyle (1)
- ligand binding (1)
- ligand exchange (1)
- ligand-receptor promiscuity (1)
- light-emitting-diodes (1)
- light-matter interaction (1)
- lightsheet microscopy (1)
- lignan (1)
- lineage-specific genes (1)
- linear conversion (1)
- linguistic cues (1)
- linguistic politics (1)
- lipid metabolism (1)
- liponeurocytoma (1)
- liquid biopsy (1)
- liver (1)
- liver disease (1)
- liver metastases (1)
- local field potentials (1)
- localization microscopy (1)
- logical trade-offs (1)
- long head of biceps tendon (1)
- long-term potentiation (1)
- loss of function (1)
- low-cost photometer (1)
- low-valent compounds (1)
- low-valent main group chemistry (1)
- low-valent main-group species (1)
- lowland beech forests (1)
- luminescence (1)
- lung cancer (1)
- lung metastases (1)
- lying (1)
- lymph nodes (1)
- lymphohistiocytosis (1)
- lymphoid tissues (1)
- lyso-phospholipids (1)
- mAb engineering (1)
- mRNA (1)
- mTOR (1)
- macrocolony (1)
- macroecology (1)
- macrophage polarization (1)
- magnesium phosphate cement (1)
- magnetic field effect (1)
- maintenance therapy (1)
- major river basins (1)
- management (1)
- manga (1)
- manoeuvre intention (1)
- match load (1)
- materials for optics (1)
- maternal separation (1)
- mating (1)
- mating preference (1)
- mebendazole (1)
- mechanical performance (1)
- mechanisms of disease (1)
- mechanistic modelling (1)
- medaka (1)
- medical rehabilitation (1)
- medication extraction (1)
- medicinal plant (1)
- medicine (1)
- medieval manuscripts (1)
- medulloblastoma (1)
- megakaryocyte (1)
- melatonin (1)
- melt electrowriting (MEW) (1)
- membrane active (1)
- memory (1)
- meningioma (1)
- meningococcal disease (1)
- meningococcus (1)
- meniscus implant (1)
- merkel cell polyomavirus (MCPyV) (1)
- merocyanines (1)
- mesenchymal stem cell (1)
- mesenchymal stem cells (1)
- mesenchymal stromal cell (1)
- mesentery (1)
- meta-analysis (1)
- metabolic flux (1)
- metabolic modeling (1)
- metabolic modelling (1)
- metabolic switch (1)
- metabolism (1)
- metabolism of infected and uninfected host cells (1)
- metabolite profiling (1)
- metabolomic (1)
- metabolomic profiling (1)
- metacognition (1)
- metal complexenes (1)
- metallo-supramolecular polymer (1)
- metals (1)
- metaproteomics (1)
- metastasis (1)
- metastasis-associated in colon cancer 1 (MACC1) (1)
- methods (1)
- methylation array (1)
- methylprednisolone (1)
- miR-221-5p (1)
- micelles (1)
- micro processor complex (1)
- micro-chambers (1)
- micro-optics (1)
- microbial rhodopsins (1)
- microbial surface component recognising adhesive matrix molecules (1)
- microbiology (1)
- microbiota (1)
- microfilament (1)
- microfluidics (1)
- midbody remnant (1)
- migrant (1)
- minerals (1)
- minimal residual disease (1)
- minipig (1)
- minocycline (1)
- mitochondrial genome (1)
- mitochondrial mRyR1 (1)
- mitofusin 2 (1)
- mitosis (1)
- mitotic gene expression (1)
- mitotic genes (1)
- mixed methods (1)
- mobile app (1)
- mobile health intervention (1)
- model-based diagnosis (1)
- molecular imaging (1)
- molecular neuroscience (1)
- molecular signature (1)
- molecular structures (1)
- molecular subtypes (1)
- monitoring (1)
- monocyte-derived DC (1)
- monotoring (1)
- moonlighting (1)
- morphing (1)
- motility (1)
- motor aging (1)
- motor-evoked potentials (MEP) (1)
- mouse feeding model (1)
- movement (1)
- mucormycosis (1)
- multi-photon microscopy (1)
- multi-spectral (1)
- multiphoton microscopy (1)
- multiresistance (1)
- multivariate analysis (1)
- murine (1)
- muscarinic receptors (1)
- mutants (1)
- mycophenolic acid (1)
- myelination (1)
- myeloid-derived suppressor cell (MDSC) (1)
- n-Halbleiter (1)
- n-type semiconductors (1)
- nalmefene (1)
- nano-satellite (1)
- nanocomplex (1)
- nanoparticles (1)
- nanophotonics and plasmonics (1)
- nanoscale devices (1)
- naphthylisoquinoline alkaloids (1)
- nasal mucosal barrier function (1)
- native populations (1)
- natural pest control (1)
- naturalistic scenes (1)
- naïve B cells (1)
- near-IR chromophores (1)
- necroptosis (1)
- need for assistance (1)
- negation detection (1)
- neonatal outcome (1)
- neonates (1)
- nerve injury (1)
- nervous system (1)
- nest microbiota (1)
- neume notation (1)
- neural circuits (1)
- neurocytoma (1)
- neurodegenerative disease (1)
- neuroendocrine neoplasia (1)
- neuroendocrine neoplasms (1)
- neuroendocrine tumors (1)
- neuromuscular disease (1)
- neuronal (1)
- neuronal apoptosis (1)
- neurooncology (1)
- neuropathic pain (1)
- neuropeptide (1)
- neurotrophic factors (1)
- neurovascular unit (1)
- neutral sphingomyelinase-2 (1)
- neutrinos (1)
- neutrophil (1)
- next-generation sequencing (1)
- next-generation-sequencing (1)
- niche (1)
- nicknames (1)
- non-alcoholic fatty liver disease (NAFLD) (1)
- non-alcoholic steatohepatitis (NASH) (1)
- non-invasive fibrosis assessment (1)
- non-smooth optimization (1)
- nonalcoholic fatty liver disease (1)
- noncoding RNA (1)
- nonconvex optimization (1)
- noncovalent complex (1)
- noncovalent nanocomplex (1)
- normal distribution (1)
- nu SVR (1)
- nuclear envelope (1)
- nuclear export (1)
- null-aggregate (1)
- number of (1)
- obesity (1)
- object segmentation (1)
- obsessive-compulsive (1)
- obstructive sleep apnoea (1)
- office environment (1)
- office-workers (1)
- olfactory dysfunction (1)
- olfactory testing (1)
- oligodendrocyte (1)
- oncogenes (1)
- oncolysis (1)
- oncolytic vaccinia virus (1)
- one-dimensional systems (1)
- online dating (1)
- online survey (1)
- ontology (1)
- open waste burning (1)
- optical antenna (1)
- optical character recognition (1)
- optical materials and structures (1)
- optical music recognition (1)
- optimal drug targeting (1)
- optimal pharmacological modulation (1)
- optimal treatment strategies (1)
- optimization (1)
- organic solar cells (1)
- origin (1)
- orthoreovirus (1)
- orthostatic test (1)
- oscillations (1)
- osteochondral defect (1)
- osteogenesis (1)
- otakuism (1)
- outcome devaluation (1)
- outcomes research (1)
- ovarian cancer (1)
- overreaching (1)
- overuse injury (1)
- oxidative DNA damage (1)
- oxidative stress (1)
- oxide heterostructure (1)
- oxidische Heterostruktur (1)
- oxindole alkaloids (1)
- oxygen vacancies (1)
- p-block element (1)
- p21-activated kinase Mbt/PAK4 (1)
- paediatrics (1)
- pain generator (1)
- panel sequencing (1)
- panic disorder (1)
- panniculitis (1)
- paranodopathy (1)
- parasexual recombination (1)
- parasite biology (1)
- parent-child relationship (1)
- parental perception (1)
- partial agonists (1)
- partial arc (1)
- passive transfer (1)
- patch-clamp (1)
- pathogenesis (1)
- pathogenic bacteria (1)
- patient preference (1)
- patient-based evidence (1)
- patient-reported outcomes (1)
- peatland (1)
- pediatrics (1)
- peer review (1)
- pefloxacin (1)
- peginterferon bet-1a (1)
- pemphigus (1)
- penetration bias (1)
- penumbra (1)
- peptide inhibitor design (1)
- peptidomoics (1)
- performativity (1)
- pericytes (1)
- permeability (1)
- persistence (1)
- person identity processing (1)
- personality development (1)
- personality judgments (1)
- perylene bisimide (1)
- perylene bisimide dimers (1)
- perylene bisimides (1)
- pesicicles (1)
- pharmacokinetics (1)
- pharmacophore map (1)
- phase transitions and critical phenomena (1)
- phenolic compounds (1)
- phenotypic screening (1)
- phosphorescence (1)
- phosphorescene spectra (1)
- phosphorylation (1)
- photoconductive interlayer (1)
- photodynamic chemotherapy (1)
- photoelectron spectroscopy (1)
- photoluminescence spectroscopy (1)
- photolysis (1)
- photonic devices (1)
- photophysical prosperties (1)
- photophysics (1)
- physical activity (1)
- physical activity promotion (1)
- physical saliency (1)
- phytic acid (1)
- pi-conjugation (1)
- piRNA (1)
- piscine orthoreovirus (1)
- pit membrane diameter (1)
- pkd (1)
- placebo and nocebo effects (1)
- plan comparison (1)
- plant reproduction (1)
- plant-derived metabolites (1)
- plants (1)
- plant–microbe–pollinator triangle (1)
- plant–pathogen interaction (1)
- plaque cross-sectional area (1)
- plasma membrane (1)
- plasma membrane depolarization (1)
- plasma membrane organization (1)
- plasminogen (1)
- platelet degranulation (1)
- platelet-neutrophil complexes (PNCs) (1)
- podosome formation (1)
- point shear wave elastography (1)
- pointing task (1)
- pol(2-oxazoline) (1)
- polarimetery (1)
- polarization (1)
- pollination (1)
- pollination network (1)
- poly(2-oxazine) (1)
- poly(2-oxazoline) (1)
- poly(2-oxazoline)s (1)
- poly(glycidol) (1)
- polycaprolactone (1)
- polyglycerol sulfates (1)
- polynomials (1)
- polyphenols (1)
- population genetics (1)
- position estimation (1)
- positron (1)
- positron annihilation lifetime spectroscopy (1)
- post-fire management (1)
- post-translational modification (1)
- posttranscriptional control (1)
- powerlifting (1)
- pre-B (1)
- precision medicine (1)
- predictive markers (1)
- predictive performance (1)
- premature aging (1)
- premixed (1)
- preschool (1)
- presynaptic hyperekplexia (1)
- preterm infants (1)
- primary endpoint (1)
- primary healthcare (1)
- primary immunodeficiency (PID) (1)
- primary outcome (1)
- primary vascular smooth muscle‐like cells (vSMCs) (1)
- pro-B (1)
- probe-based real-time PCR (1)
- procedural learning (1)
- production machines (1)
- proliferation (1)
- proliferative darkening syndrome (1)
- prospective memory (1)
- prostate-specific membrane antigen (1)
- protected forests (1)
- protein binding (1)
- protein kinase D1 (1)
- protein processing (1)
- protein transport (1)
- protein-bound uremic toxins (1)
- protein-protein interaction (PPI) (1)
- proteins (1)
- proteomics (1)
- präfabriziert (1)
- psoriasis (1)
- psychological pain modulation (1)
- psychology (1)
- psychometrics (1)
- psychosocial adaptation (1)
- psychosocial stress (1)
- psychotherapy (1)
- puberty (1)
- pyrolysis (1)
- quality assurance (1)
- quality of democracy (1)
- quality of life (QoL) (1)
- quantile forecasts (1)
- quantitative analysis (1)
- quantum Monte Carlo (1)
- quantum dot (1)
- quantum dots (1)
- quantum gravity (1)
- quantum information (1)
- qubits (1)
- questionnaires (1)
- radiation (1)
- radiation sensitivity (1)
- radical (1)
- radical ion pair (1)
- radiopacity (1)
- radiotherapy (1)
- ray (1)
- reaction times (1)
- reactive intermediates (1)
- real life setting (1)
- real world evidence (1)
- reciprocal translocation (1)
- recombinant tissue-type plasminogen activator (1)
- reconstructive surgery (1)
- recording methods (1)
- recovery (1)
- rectum (1)
- refractory aGvHD (1)
- regenerative medicine (1)
- registry for primary immunodeficiency (1)
- regulatory T cells (1)
- regulatory T cells (Treg) (1)
- regulatory capital (1)
- regulatory dendritic cells (1)
- reinforcement learning (1)
- reliability (1)
- renal imaging (1)
- repeated sprint (1)
- reprogamming of host cell metabolism (1)
- required hydrophilic–lipophilic balance (1)
- rereading (1)
- resettlement refugees (1)
- resistance (1)
- resistance training (1)
- resonance theory (1)
- response inhibition (1)
- restriction factors (1)
- restrictive cardiomyopathy (1)
- resveratrol biosynthesis (1)
- retention interval (1)
- reticulate body (1)
- retinal pigment epithelium (1)
- retrospective (1)
- review (1)
- rhBMP–2 (1)
- rheumatic diseases (1)
- rheumatology (1)
- rhodomyrtone (1)
- ring-expansion reactions (1)
- ring-opening polymerization (1)
- ripk1 (1)
- ripk3 (1)
- risk society (1)
- risk stratification (1)
- robust control (1)
- rulebased analysis (1)
- ruthenium (1)
- sPEG (1)
- saccades (1)
- sacha inchi oil (1)
- sample storage (1)
- saproxylic organisms (1)
- sarcomere (1)
- satellite formation flying (1)
- satellite remote sensing (1)
- scaffold (1)
- search (1)
- seco-NIQs-Naphthylisoindolinone (1)
- secreted effectors (1)
- segmental progeria (1)
- self-determination theory (1)
- semantic segmentation (1)
- semileptonic & radiative decays (1)
- sensor data (1)
- sensor supports (1)
- sentinel (1)
- sentinel prey (1)
- sepsis (1)
- sequence analysis (1)
- sequential addition (1)
- serial reaction time task (1)
- serotonin (1)
- serotonin deficiency (1)
- setting reaction (1)
- sex robots (1)
- shared reading (1)
- short neuropeptide F (1)
- short-range JCT-coupling (1)
- short-range order (1)
- shoulder (1)
- shoulder pain (1)
- shyness (1)
- sigma boranes (1)
- signal specification (1)
- signal transduction (1)
- signalling (1)
- silica supraparticles (1)
- simple (1)
- simulation and modeling (1)
- simulation training (1)
- simultaneous presentation paradigm (1)
- single arc (1)
- single cell anatomy (1)
- single photon (1)
- single-molecule tracking (1)
- sirolimus (1)
- site-specific protein modification (1)
- situation awareness (1)
- skeletal progenitor cells (1)
- skeletal-related events (1)
- skewness (1)
- skin model (1)
- sleep (1)
- slope bogs (1)
- small RNA (1)
- small RNAs (1)
- small intestinal submucosa scaffold (1)
- small-cell lung cancer (1)
- small-molecule activation (1)
- smart surfaces (1)
- snowboarder's ankle (1)
- snowboarder's fracture (1)
- soccer (football) (1)
- social anxiety disorder (1)
- social behaviour (1)
- sociophonetics (1)
- sodium (1)
- soft tissue sarcoma (1)
- soft x-ray photoemission (1)
- soil fauna (1)
- solar cells (1)
- solid tumors (1)
- solid-state NMR spectroscopy (1)
- solid-state emitters (1)
- solitary bees (1)
- solubility (1)
- solubility enhancement (1)
- solvent-dependent fluorescence yield (1)
- somatic mutations (1)
- somatosensory evoked potential (1)
- somatosensory temporal discrimination (1)
- somatostatin receptor (1)
- spa typing (1)
- spacer-controlled self-assembly (1)
- spacing effect (1)
- spatial analyses (1)
- spatial heterogeneity (1)
- spatial scale (1)
- species richness (1)
- species‐area hypothesis (1)
- specific heat (1)
- sphingomyelinase (1)
- sphingosine kinase (1)
- sphingosine kinase inhibitor SKI-II (1)
- sphingosine-1-phosphate (1)
- spin polarization (1)
- spin relaxation (1)
- spin transport (1)
- spinal muscular atrophy (1)
- spleen (1)
- split renal function (1)
- sporidia (1)
- standardized reporting (1)
- standing (1)
- starPEG (1)
- starPEG hydrogel (1)
- startle response (1)
- static vs. dynamic faces (1)
- statistical distributions (1)
- statistical models (1)
- steering (1)
- stem Cells (1)
- stem cell transplantation (1)
- stereospecific sythesis (1)
- stereotactic body radiation therapy (1)
- stereotactic irradiation (1)
- steric effects (1)
- steroid-resistant aGvHD (1)
- stigma (1)
- storage-pool diseases (1)
- storytelling (1)
- strain rate (1)
- strength training (1)
- stress (1)
- stress fiber (1)
- stress tolerance (1)
- stroke management (1)
- stromal vascular fraction (1)
- strong coupling (1)
- strong light matter coupling (1)
- structural disruption (1)
- structural restriction (1)
- structure-activity (1)
- structure-activity relationship (1)
- structure-activity relationships (1)
- structured illumination microscopy (1)
- subadditivity (1)
- subarachnoid hemorrhage (1)
- submicroscopic chromosome rearrangement (1)
- subsarcolemmal mitochondria (1)
- substandard and falsified medicines from the Congo (1)
- substituent (1)
- subsurface hydrology (1)
- sulfoimines (1)
- sulfur (1)
- super resolution microscopy (1)
- super-resolution fluorescence microscopy (1)
- super-resolution microscopy (1)
- superresolution (1)
- suppressor cells (1)
- suppressor mutation (1)
- surface functionalization (1)
- surface plasmon (1)
- surface transport (1)
- surface water (1)
- surfaces, interfaces and thin films (1)
- surgical and invasive medical procedures (1)
- surgical site infection (1)
- survival analysis (1)
- synapses (1)
- synchrotron radiation (1)
- synchrotron radiatoren (1)
- synergistic effect (1)
- synthetic biology (1)
- systematic affiliation (1)
- systematic drug targeting (1)
- targeted bisulfite sequencing (1)
- targeted therapies (1)
- taxonomy (1)
- telemedicine (1)
- temozolomide (1)
- temperature‐mediated resource exploitation hypothesis (1)
- temperature‐richness hypothesis (1)
- temporal discrimination threshold (1)
- temporal lobe epilepsy (1)
- tendon-derived stem cell (1)
- terrestrial LiDAR (1)
- theranostics (1)
- therapy (1)
- therapy response (1)
- therapy simulation (1)
- thermal remote sensing (1)
- thiol-ene (1)
- threshold discrimination identification test (1)
- thrombo-inflammation (1)
- thrombolysis (1)
- thrombolysis (tPA) (1)
- thrombosis (1)
- tight junctions (1)
- time lag (1)
- time series (1)
- time-resolved photoelectron spectroscopy (1)
- time-resolved spectroscopy (1)
- tisindoline (1)
- top-down processing (1)
- topminnow (1)
- topological insulators (1)
- topological matter (1)
- total body irradiation/busulfan (1)
- toxicity (1)
- trans-acting 2'-5' adenylyl transferase ribozymes (1)
- transcranial magnetic simulation (TMS) (1)
- transcription (1)
- transcription deficiency (1)
- transcriptome (1)
- transcriptomics (1)
- transfer hydrogenation (1)
- transient absorption (1)
- transient dynamics (1)
- transient elastography (1)
- transient ischemic attack (1)
- transient middle cerebral artery occlusion (1)
- transition metal (1)
- transition metall dichalcogenide monolayer (1)
- transmission (1)
- transplantation (1)
- transposable elements (1)
- treatment (1)
- tree cavities (1)
- triacylglycerides (1)
- triarylboranes (1)
- triple bonds (1)
- triquinacene derivatives (1)
- trivalent boron (1)
- trypanosomes (1)
- tryptophan hydroxylase 2 (1)
- tumor burden (1)
- tumor control probability (1)
- tumor heterogeneity (1)
- tumor suppressor miRNA (1)
- tumour (1)
- tumour-necrosis factors (1)
- two-component (1)
- two-photon absorption (1)
- tyloses (1)
- type VII secretion system (1)
- ubiquitin ligase (1)
- ubiquitylation (ubiquitination) (1)
- uncanny valley (1)
- uncertainties (1)
- uncertainty (1)
- uneven-aged mountainous (1)
- unmanaged broadleaved forests (1)
- unnecessary alarm (1)
- unsaturated fatty acids (1)
- upconversion (1)
- uptake (1)
- urban environments (1)
- uremic toxins (1)
- urinary tract infections (1)
- vaccinia (1)
- variability (1)
- vasculitis (1)
- verdünnt magnetische Halbleiter (1)
- vertebral body (1)
- vertical and radial variation (1)
- very high energies (VHE) (1)
- very long-chain aliphatic compounds (1)
- vessel lumen diameter (1)
- vessel wall resident stem cells (1)
- vestibular schwannoma (1)
- viability (1)
- video laryngoscopy (1)
- virotherapy (1)
- virtual isocenter (1)
- virus (1)
- viruses (1)
- visual orientation (1)
- visual perception (1)
- visual realism (1)
- vitamin D (1)
- vitamins (1)
- vocational education (1)
- voice-face matching (1)
- volume overload (1)
- voluntary exhaustion (1)
- voxel-based morphometry (1)
- walking (1)
- waste sorting (1)
- water balance (1)
- watershed (1)
- weightlifting (1)
- well-being (1)
- white matter lesions (1)
- whole-genome duplication (1)
- whole-genome sequencing (1)
- wild bees (1)
- wood anatomy (1)
- work (1)
- work capacity evaluation (1)
- work engagement (1)
- work performance (1)
- youth (1)
- zeitaufgelöste Spektroskopie (1)
- zielgerichtete Behandlung (1)
- zinc oxide (1)
- zinc oxide nanoparticles (1)
- zonal construct (1)
- zooming (1)
- État d'Imo (1)
- β3 adrenergic receptor (1)
Institute
- Theodor-Boveri-Institut für Biowissenschaften (97)
- Graduate School of Life Sciences (51)
- Physikalisches Institut (44)
- Medizinische Klinik und Poliklinik II (33)
- Institut für Psychologie (32)
- Institut für Anorganische Chemie (27)
- Institut für Organische Chemie (27)
- Neurologische Klinik und Poliklinik (27)
- Institut für deutsche Philologie (24)
- Neuphilologisches Institut - Moderne Fremdsprachen (24)
Schriftenreihe
Sonstige beteiligte Institutionen
- VolkswagenStiftung (24)
- Johns Hopkins School of Medicine (2)
- Bio-Imaging Center Würzburg (1)
- CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - the development agency of the Brazilian Federal Government (1)
- Center for Nanosystems Chemistry (CNC), Universität Würzburg (1)
- DAAD - Deutscher Akademischer Austauschdienst (1)
- Department of Hematology and Oncology, Sana Hospital Hof, Hof, Germany (1)
- Department of Laboratory Medicine and Medicine Huddinge, Karolinska Institutet and University Hospital, Stockholm, Sweden (1)
- Department of Medicine A, University Hospital of Münster, Münster, Germany (1)
- Ernst Strüngmann Institute for Neuroscience in Cooperation with Max Planck Society (ESI) (1)
ResearcherID
- B-4606-2017 (1)
Metal nanostructures have been known for a long time to exhibit optical resonances via localized surface plasmons. The high electric fields in close proximity to the metal surface have prospects to dramatically change the dynamics of electronic transitions, such as an enhanced spontaneous decay rate of a single emitter. However, there have been two major issues which impede advances in the experimental realization of enhanced light-matter interaction. (i) The fabrication of high-quality resonant structures requires state-of-the-art patterning techniques in combination with superior materials. (ii) The tiny extension of the optical near-field requires precise control of the single emitter with respect to the nanostructure. This work demonstrates a solution to these problems by combining scanning probe and optical confocal microscopy. Here, a novel type of scanning probe is introduced which features a tip composed of the edge of a single crystalline gold sheet. The patterning via focused ion beam milling makes it possible to introduce a plasmonic nanoresonator directly at the apex of the tip. Numerical simulations demonstrate that the optical properties of this kind of scanning probe are ideal to analyze light-matter interaction. Detailed experimental studies investigate the coupling mechanism between a localized plasmon and single colloidal quantum dots by dynamically changing coupling strength via their spatial separation. The results have shown that weak interaction affects the shape of the fluorescence spectrum as well as the polarization. For the best probes it has been found that it is possible to reach the strong coupling regime at the single emitter level at room temperature. The resulting analysis of the experimental data and the proposed theoretical models has revealed the differences between the established far-field coupling and near-field coupling. It has been found that the broad bandwidth of plasmonic resonances are able to establish coherent coupling to multiple transitions simultaneously giving rise to an enhanced effective coupling strength. It has also been found that the current model to numerically calculate the effective mode volume is inaccurate in case of mesoscopic emitters and strong coupling. Finally, light-matter interaction is investigated by the means of a quantum-dot-decorated microtubule which is traversing a localized nearfield by gliding on kinesin proteins. This biological transport mechanism allows the parallel probing of a meta-surface with nm-precision. The results that have been put forward throughout this work have shed new light on the understanding of plasmonic light-matter interaction and might trigger ideas on how to more efficiently combine the power of localized electric fields and novel excitonic materials.
Metabolic adaptation to the host cell is important for obligate intracellular pathogens such as Chlamydia trachomatis (Ct). Here we infer the flux differences for Ct from proteome and qRT-PCR data by comprehensive pathway modeling. We compare the comparatively inert infectious elementary body (EB) and the active replicative reticulate body (RB) systematically using a genome-scale metabolic model with 321 metabolites and 277 reactions. This did yield 84 extreme pathways based on a published proteomics dataset at three different time points of infection. Validation of predictions was done by quantitative RT-PCR of enzyme mRNA expression at three time points. Ct’s major active pathways are glycolysis, gluconeogenesis, glycerol-phospholipid (GPL) biosynthesis (support from host acetyl-CoA) and pentose phosphate pathway (PPP), while its incomplete TCA and fatty acid biosynthesis are less active. The modeled metabolic pathways are much more active in RB than in EB. Our in silico model suggests that EB and RB utilize folate to generate NAD(P)H using independent pathways. The only low metabolic flux inferred for EB involves mainly carbohydrate metabolism. RB utilizes energy -rich compounds to generate ATP in nucleic acid metabolism. Validation data for the modeling include proteomics experiments (model basis) as well as qRT-PCR confirmation of selected metabolic enzyme mRNA expression differences. The metabolic modeling is made fully available here. Its detailed insights and models on Ct metabolic adaptations during infection are a useful modeling basis for future studies.
Plant–pathogen interactions have been widely studied, but mostly from the site of the plant secondary defense. Less is known about the effects of pathogen infection on plant primary metabolism. The possibility to transform a fluorescing protein into prokaryotes is a promising phenotyping tool to follow a bacterial infection in plants in a noninvasive manner. In the present study, virulent and avirulent Pseudomonas syringae strains were transformed with green fluorescent protein (GFP) to follow the spread of bacteria in vivo by imaging Pulse-Amplitude-Modulation (PAM) fluorescence and conventional binocular microscopy. The combination of various wavelengths and filters allowed simultaneous detection of GFP-transformed bacteria, PAM chlorophyll fluorescence, and phenolic fluorescence from pathogen-infected plant leaves. The results show that fluorescence imaging allows spatiotemporal monitoring of pathogen spread as well as phenolic and chlorophyll fluorescence in situ, thus providing a novel means to study complex plant–pathogen interactions and relate the responses of primary and secondary metabolism to pathogen spread and multiplication. The study establishes a deeper understanding of imaging data and their implementation into disease screening.
Supramolecular self-assembly of perylene bisimide (PBI) dyes via non-covalent forces gives rise to a high number of different PBI architectures with unique optical and functional properties. As these properties can be drastically influenced by only slightly structural changes of the formed supramolecular ensembles (Chapter 2.1) the controlled self-assembly of PBI dyes became a central point of current research to design innovative materials with a high potential for different applications as for example in the fields of organic electronics or photovoltaics.
As PBI dyes show a strong tendency to form infinite aggregated structures (Chapter 2.2) the aim of this thesis was to precisely control their self-assembly to create small, structurally well-defined PBI assemblies in solution. Chapter 2.3 provides an overview on literature known strategies that were established to realize this aim. It could be demonstrated that especially backbone-directed intra- and intermolecular self-assembly of covalently linked Bis-PBI dyes evolved as one of the most used strategies to define the number of stacked PBI chromophores by using careful designed spacer units with regard to their length and flexibility.
By using conventional spectroscopic methods like UV/Vis and fluorescence experiments in combination with NMR measurements an in-depth comparison of the molecular and optical properties in solution both in the non-stacked and aggregated state of the target compounds could be elucidated to reveal structure-property relationships of different PBI architectures. Thus, it could be demonstrated, that spacer units that pre-organize two PBI chromophores with an inter-planar distance of r < 7 Å lead to an intramolecular folding, whereas linker moieties with a length between 7 to 11 Å result in an intermolecular self-assembly of the respective Bis-PBIs dyes via dimerization to form well-defined quadruple PBI pi-stacks. Hence, if the used spacer units ensure an inter-planar distance r > 14 Å larger oligomeric PBI pi-stacks are generated.
In Chapter 4 a detailed analysis of the exciton coupling in a highly defined H-aggregate quadruple PBI pi-stack is presented. Therefore, bay-tethered PBI dye Bis-PBI 1 was investigated by concentration-dependent UV/Vis spectroscopy in THF and toluene as well as by 2D-DOSY-NMR spectroscopy, ESI mass spectrometry and AFM measurements confirming that Bis-PBI 1 self-assembles exclusively into dimers with four closely pi-stacked PBI chromophores. Furthermore, with the aid of broadband fluorescence upconversion spectroscopy (FLUPS) ensuring broadband detection range and ultrafast time resolution at once, ultrafast Frenkel exciton relaxation and excimer formation dynamics in the PBI quadruple pi-stack within 1 ps was successfully investigated in cooperation with the group of Dongho Kim. Thus, it was possible to gain for the first time insights into the exciton dynamics within a highly defined synthetic dye aggregate beyond dimers. By analysing the vibronic line shape in the early-time transient fluorescence spectra in detail, it could be demonstrated that the Frenkel exciton is entirely delocalized along the quadruple stack after photoexcitation and immediately loses its coherence followed by the formation of the excimer state.
In Chapter 5 four well-defined Bis-PBI folda-dimers Bis-PBIs 2-4 were introduced, where linker units of different length (r < 7 Å) and steric demand were used to gain distinct PBI dye assemblies in the folded state. Structural elucidation based on in-depth UV/Vis, CD and fluorescence experiments in combination with 1D and 2D NMR studies reveals a stacking of the two PBI chromophores upon folding, where geometry-optimized structures obtained from DFT calculations suggest only slightly different arrangements of the PBI units enforced by the distinct spacer moieties. With the resulting optical signatures of Bis-PBIs 2-4 ranging from conventional Hj-type to monomer like absorption features, the first experimental proof of a PBI-based “null-aggregate” could be presented, in which long- and short-range exciton coupling fully compensate each other. Hence, the insights of this chapter pinpoint the importance of charge-transfer mediated short-range exciton coupling that can significantly influence the properties of pi-stacked PBI chromophores
In the last part of this thesis (Chapter 6), spacer-controlled self-assembly of four bay-linked Bis-PBI dyes Bis-PBIs 5-8 into well-defined supramolecular architectures was investigated, where the final aggregate structures are substantially defined by the nature of the used spacer units. By systematically extending the backbone length from 7 to 15 Å defining the inter-planar distance between the tethered chromophores, different assemblies from defined quadruple PBI pi-stacks to larger oligomeric pi-stacks could be gained upon aggregation.
In conclusion, the synthesis of nine covalently linked PBI dyes in combination with a detailed investigation of their spacer-mediated self-assembly behaviour in solution concerning structure-properties-relationships was presented within this thesis. The results confirm a strong exciton coupling in different types of Bis-PBI architectures e.g. folda-dimers or highly defined quadruple pi-stacks, which significantly influences their optical properties upon self-assembly.
Space- and time-resolved UV-to-NIR surface spectroscopy and 2D nanoscopy at 1 MHz repetition rate
(2019)
We describe a setup for time-resolved photoemission electron microscopy (TRPEEM) with aberration correction enabling 3 nm spatial resolution and sub-20 fs temporal resolution. The latter is realized by our development of a widely tunable (215–970 nm) noncollinear optical parametric amplifier (NOPA) at 1 MHz repetition rate. We discuss several exemplary applications. Efficient photoemission from plasmonic Au nanoresonators is investigated with phase-coherent pulse pairs from an actively stabilized interferometer. More complex excitation fields are created with a liquid-crystal-based pulse shaper enabling amplitude and phase shaping of NOPA pulses with spectral components from 600 to 800 nm. With this system we demonstrate spectroscopy within a single plasmonic nanoslit resonator by spectral amplitude shaping and investigate the local field dynamics with coherent two-dimensional (2D) spectroscopy at the nanometer length scale (“2D nanoscopy”). We show that the local response varies across a distance as small as 33 nm in our sample. Further, we report two-color pump–probe experiments using two independent NOPA beamlines. We extract local variations of the excited-state dynamics of a monolayered 2D material (WSe2) that we correlate with low-energy electron microscopy (LEEM) and reflectivity (LEER) measurements. Finally, we demonstrate the in-situ sample preparation capabilities for organic thin films and their characterization via spatially resolved electron diffraction and dark-field LEEM.
This thesis elucidates patterns and drivers of invertebrate herbivory, herbivore diversity, and community-level biomass along elevational and land use gradients at Mt. Kilimanjaro, Tanzania.
Chapter I provides background information on the response and predictor variables, study system, and the study design. First, I give an overview of the elevational patterns of species diversity/richness and herbivory published in the literature. The overview illuminates existing debates on elevational patterns of species diversity/richness and herbivory. In connection to these patterns, I also introduce several hypotheses and mechanisms put forward to explain macroecological patterns of species richness. Furthermore, I explain the main variables used to test hypotheses. Finally, I describe the study system and the study design used.
Chapter II explores the patterns of invertebrate herbivory and their underlying drivers along extensive elevational and land use gradients on the southern slopes of Mt. Kilimanjaro. I recorded standing leaf herbivory from leaf chewers, leaf miners and gall-inducing insects on 55 study sites located in natural and anthropogenic habitats distributed from 866 to 3060 meters above sea level (m asl) on Mt. Kilimanjaro. Standing leaf herbivory was related to climatic variables [mean annual temperature - (MAT) and mean annual precipitation - (MAP)], net primary productivity (NPP) and plant functional traits (leaf traits) [specific leaf area (SLA), carbon to nitrogen ratio (CN), and nitrogen to phosphorous ratio (NP)]. Results revealed an unimodal pattern of total leaf herbivory along the elevation gradient in natural habitats. Findings also revealed differences in the levels and patterns of herbivory among feeding guilds and between anthropogenic and natural habitats. Changes in NP and CN ratios which were closely linked to NPP were the strongest predictors of leaf herbivory. Our study uncovers the role of leaf nutrient stoichiometry and its linkages to climate in explaining the variation in leaf herbivory along climatic gradients.
Chapter III presents patterns and unravels direct and indirect effects of resource (food) abundance (NPP), resource (food) diversity [Functional Dispersion (FDis)], resource quality (SLA, NP, and CN rations), and climate variables (MAT and MAP) on species diversity of phytophagous beetles. Data were collected from 65 study sites located in natural and anthropogenic habitats distributed from 866 to 4550 m asl on the southern slopes of Mt. Kilimanjaro. Sweep net and beating methods were used to collect a total of 3,186 phytophagous beetles representing 21 families and 304 morphospecies. Two groups, weevils (Curculionidae) and leaf beetles (Chrysomelidae) were the largest and most diverse families represented with 898 and 1566 individuals, respectively. Results revealed complex (bimodal) and dissimilar patterns of Chao1-estimated species richness (hereafter referred to as species diversity) along elevation and land use gradients. Results from path analysis showed that temperature and climate-mediated changes in NPP had a significant positive direct and indirect effect on species diversity of phytophagous beetles, respectively. The results also revealed that the effect of NPP (via beetles abundance and diversity of food resources) on species diversity is stronger than that of temperature. Since we found that factors affecting species diversity were intimately linked to climate, I concluded that predicted climatic changes over the coming decades will likely alter the species diversity patterns which we observe today.
Chapter IV presents patterns and unravels the direct and indirect effects of climate, NPP and anthropogenic disturbances on species richness and community-level biomass of wild large mammals which represent endothermic organisms and the most important group of vertebrate herbivores. Data were collected from 66 study sites located in natural and anthropogenic habitats distributed from 870 to 4550 m asl on the southern slopes of Mt. Kilimanjaro. Mammals were collected using camera traps and used path analysis to disentangle the direct and indirect effects of climatic variables, NPP, land use, land area, levels of habitat protection and occurrence of domesticated mammals on the patterns of richness and community-level biomass of wild mammals, respectively. Results showed unimodal patterns for species richness and community-level biomass of wild mammals along elevation gradients and that the patterns differed depending on the type of feeding guild. Findings from path analysis showed that net primary productivity and levels of habitat protection had a strong direct effect on species richness and community-level biomass of wild mammals whereas temperature had an insignificant direct effect. Findings show the importance of climate-mediated food resources in determining patterns of species richness of large mammals. While temperature is among key predictors of species richness in several ectotherms, its direct influence in determining species richness of wild mammals was insignificant. Findings show the sensitivity of wild mammals to anthropogenic influences and underscore the importance of protected areas in conserving biodiversity.
In conclusion, despite a multitude of data sets on species diversity and ecosystem functions along broad climatic gradients, there is little mechanistic understanding of the underlying causes. Findings obtained in the three studies illustrate their contribution to the scientific debates on the mechanisms underlying patterns of herbivory and diversity along elevation gradients. Results present strong evidence that plant functional traits play a key role in determining invertebrate herbivory and species diversity along elevation gradients and that, their strong interdependence with climate and anthropogenic activities will shape these patterns in future. Additionally, findings from path analysis demonstrated that herbivore diversity, community-level biomass, and herbivory are strongly influenced by climate (either directly or indirectly). Therefore, the predicted climatic changes are expected to dictate ecological patterns, biotic interactions, and energy and nutrient fluxes in terrestrial ecosystems in the coming decades with stronger impacts probably occurring in natural ecosystems. Furthermore, findings demonstrated the significance of land use effects in shaping ecological patterns. As anthropogenic pressure is advancing towards more pristine higher elevations, I advocate conservation measures which are responsive to and incorporate human dimensions to curb the situation. Although our findings emanate from observational studies which have to take several confounding factors into account, we have managed to demonstrate global change responses in real ecosystems and fully established organisms with a wide range of interactions which are unlikely to be captured in artificial experiments. Nonetheless, I recommend additional experimental studies addressing the effect of top-down control by natural enemies on herbivore diversity and invertebrate herbivory in order to deepen our understanding of the mechanisms driving macroecological patterns along elevation gradients.
Breast cancer is the most common cancer among women worldwide and the second most common cause of cancer death in the developed countries. As the current state of the art in first-line drug screenings is highly ineffective, there is an urgent need for novel test systems that allow for reliable predictions of drug sensitivity.
In this study, a tissue engineering approach was used to successfully establish and standardize a 3-dimensional (3D) mamma carcinoma test system that was optimized for the testing of anti-tumour therapies as well as for the investigation of tumour biological issues. This 3D test system is based on the decellularised scaffold of a porcine small intestinal segment and represents the three molecular subsets of oestrogen receptor-positive, HER2/Neu-overexpressing and triple negative breast cancer (TNBC). The characterization of the test system with respect to morphology as well as the expression of markers for epithelial-mesenchymal transition (EMT) and differentiation indicate that the 3D tumour models cultured under static and dynamic conditions reflect tumour relevant features and have a good correlation with in vivo tumour tissue from the corresponding xenograft models. In this respect, the dynamic culture in a flow bioreactor resulted in the generation of tumour models that exhibited best reflection of the morphology of the xenograft material. Furthermore, the proliferation indices of 3D models were significantly reduced compared to 2-dimensional (2D) cell culture and therefore better reflect the in vivo situation. As this more physiological proliferation index prevents an overestimation of the therapeutic effect of cytostatic compounds, this is a crucial advantage of the test system compared to 2D culture. Moreover, it could be shown that the 3D models can recapitulate different tumour stages with respect to tumour cell invasion. The scaffold SISmuc with the preserved basement membrane structure allowed the investigation of invasion over this barrier which tumour cells of epithelial origin have to cross in in vivo conditions during the process of metastasis formation. Additionally, the data obtained from ultrastructural analysis and in situ zymography indicate that the invasion observed is connected to a tumour cell-associated change in the basement membrane in which matrix metalloproteinases (MMPs) are also involved. This features of the model in combination with the mentioned methods of analysis could be used in the future to mechanistically investigate invasive processes and to test anti-metastatic therapy strategies.
The validation of the 3D models as a test system with respect to the predictability of therapeutic effects was achieved by the clinically relevant targeted therapy with the monoclonal antibody trastuzumab which induces therapeutic response only in patients with HER2/Neu-overexpressing mamma carcinomas due to its specificity for HER2. While neither in 2D nor in 3D models of all molecular subsets a clear reduction of cell viability or an increase in apoptosis could be observed, a distinct increase in antibody-dependent cell-mediated cytotoxicity (ADCC) was detected only in the HER2/NEU-overexpressing 3D model with the help of an ADCC reporter gene assay that had been adapted for the application in the 3D model in the here presented work. This correlates with the clinical observations and underlines the relevance of ADCC as a mechanism of action (MOA) of trastuzumab. In order to measure the effects of ADCC on the tumour cells in a direct way without the indirect measurement via a reporter gene, the introduction of an immunological component into the models was required. This was achieved by the integration of peripheral blood mononuclear cells (PBMCs), thereby allowing the measurement of the induction of tumour cell apoptosis in the HER2/Neu-overexpressing model. Hence, in this study an immunocompetent model could be established that holds the potential for further testing of therapies from the emergent field of cancer immunotherapies.
Subsequently, the established test system was used for the investigation of scientific issues from different areas of application. By the comparison of the sensitivity of the 2D and 3D model of TNBC towards the water-insoluble compound curcumin that was applied in a novel nanoformulation or in a DMSO-based formulation, the 3D test system was successfully applied for the evaluation of an innovative formulation strategy for poorly soluble drugs in order to achieve cancer therapy-relevant concentrations. Moreover, due to the lack of targeted therapies for TNBC, the TNBC model was applied for testing novel treatment strategies. On the one hand, therapy with the WEE1 kinase inhibitor MK 1775 was evaluated as a single agent as well as in combination with the chemotherapeutic agent doxorubicin. This therapy approach did not reveal any distinct benefits in the 3D test system in contrast to testing in 2D culture. On the other hand, a novel therapy approach from the field of cellular immunotherapies was successfully applied in the TNBC 3D model. The treatment with T cells that express a chimeric antigen receptor (CAR) against ROR1 revealed in the static as well as in the dynamic model a migration of T cells into the tumour tissue, an enhanced proliferation of T cells as well as an efficient lysis of the tumour cells via apoptosis and therefore a specific anti-cancer effect of CAR-transduced T cells compared to control T cells. These results illustrate that the therapeutic application of CAR T cells is a promising strategy for the treatment of solid tumours like TNBC and that the here presented 3D models are suitable for the evaluation and optimization of cellular immunotherapies.
In the last part of this work, the 3D models were expanded by components of the tumour stroma for future applications. By coculture with fibroblasts, the natural structures of the intestinal scaffold comprising crypts and villi were remodelled and the tumour cells formed tumour-like structures together with the fibroblasts. This tissue model displayed a strong correlation with xenograft models with respect to morphology, marker expression as well as the activation of dermal fibroblasts towards a cancer-associated fibroblast (CAF) phenotype. For the integration of adipocytes which are an essential component of the breast stroma, a coculture with human adipose-derived stromal/stem cells (hASCs) which could be successfully differentiated along the adipose lineage in 3D static as well as dynamic models was established. These models are suitable especially for the mechanistic analysis of the reciprocal interaction between tumour cells and adipocytes due to the complex differentiation process.
Taken together, in this study a human 3D mamma carcinoma test system for application in the preclinical development and testing of anti-tumour therapies as well as in basic research in the field of tumour biology was successfully established. With the help of this modular test system, relevant data can be obtained concerning the efficacy of therapies in tumours of different molecular subsets and different tumour stages as well as for the optimization of novel therapy strategies like immunotherapies. In the future this can contribute to improve the preclinical screening and thereby to reduce the high attrition rates in pharmaceutical industry as well as the amount of animal experiments.
Tumor necrosis factor (TNF)-like weak inducer of apoptosis (TWEAK) is a member of the TNF superfamily (TNFSF) and is as such initially expressed as type II class transmembrane glycoprotein from which a soluble ligand form can be released by proteolytic processing. While the expression of TWEAK has been detected at the mRNA level in various cell lines and cell types, its cell surface expression has so far only been documented for dendritic cells, monocytes and interferon-γ stimulated NK cells. The fibroblast growth factor-inducible-14 (Fn14) is a TRAF2-interacting receptor of the TNF receptor superfamily (TNFRSF) and is the only receptor for TWEAK. The expression of Fn14 is strongly induced in a variety of non-hematopoietic cell types after tissue injury. The TWEAK/Fn14 system induces pleiotropic cellular activities such as induction of proinflammatory genes, stimulation of cellular angiogenesis, proliferation, differentiation, migration and in rare cases induction of apoptosis. On the other side, Toll-like receptor3 (TLR3) is one of DNA- and RNA-sensing pattern recognition receptors (PRRs), plays a crucial role in the first line of defense against virus and invading foreign pathogens and cancer cells. Polyinosinic-polycytidylic acid poly(I:C) is a synthetic analog of dsRNA, binds to TLR3 which acts through the adapter TRIF/TICAM1, leading to cytokine secretion, NF-B activation, IRF3 nuclear translocation, inflammatory response and may also elicit the cell death. TWEAK sensitizes cells for TNFR1-induced apoptosis and necroptosis by limiting the availability of protective TRAF2-cIAP1 and TRAF2-cIAP2 complexes, which interact with the TNFR1-binding proteins TRADD and RIPK1. In accordance with the fact that poly(I:C)-induced signaling also involves these proteins, we found enhanced necroptosis-induction in HaCaT and HeLa-RIPK3 by poly(I:C) in the presence of TWEAK (Figure 24). Analysis of a panel of TRADD, FADD, RIPK1 and caspase-8 knockout cells revealed furthermore similarities and differences in the way how these molecules act in cell death signaling by poly(I:C)/TWEAK and TNF and TRAIL. RIPK1 turned out to be essential for poly(I:C)/TWEAK-induced caspase-8-mediated apoptosis but was dispensable for these responses in TNF and TRAIL signaling. Lack of FADD protein abrogated TRAIL- but not TNF- and poly(I:C)-induced necroptosis. Moreover, we observed that both long and short FLIP rescued HaCaT and HeLa-RIPK3 cells from poly(I:C)-induced apoptosis or necroptosis.
To sum up, our results demonstrate that TWEAK, which is produced by interferon stimulated myeloid cells, controls the induction of apoptosis and necroptosis by the TLR3 ligand poly(I:C) and may thus contribute to cancer or anti-viral immunity treatment.
The etiology of anxiety disorders is multifactorial with contributions from both
genetic and environmental factors. Several susceptibility genes of anxiety disorders or
anxiety-related intermediate phenotypes have been identified, including the
serotonin transporter gene (5-HTT) and the neuropeptide S receptor gene (NPSR1),
which have been shown to modulate responses to distal and acute stress experiences.
For instance, gene-environment interaction (GxE) studies have provided evidence
that both 5-HTT and NPSR1 interact with environmental stress, particularly
traumatic experiences during childhood, in the moderation of anxiety traits, and
both 5-HTT and NPSR1 have been implicated in hypothalamic-pituitary-adrenal
(HPA) axis reactivity – an intermediate phenotype of mental disorders – in response
to acute stress exposure. The first part of this thesis aimed to address the interplay of
variations in both 5-HTT and NPSR1 genes and distal stress experiences, i.e.
childhood trauma, in the moderation of anxiety-related traits, extended by
investigation of the potentially protective effect of positive influences, i.e. elements of
successful coping such as general self-efficacy (GSE), on a GxE risk constellation by
introducing GSE as an indicator of coping ability (“C”) as an additional dimension in
a GxExC approach conferring – or buffering – vulnerability to anxiety. Increased
anxiety was observed in 5-HTTLPR/rs25531 LALA genotype and NSPR1 rs324981 AA
genotype carriers, respectively, with a history of childhood maltreatment but only in
the absence of a person’s ability to cope with adversity, whereas a dose-dependent
effect on anxiety traits as a function of maltreatment experiences irrespective of
coping characteristics was observed in the presence of at least one 5-HTT S/LG or
NSPR1 T allele, respectively. The second part of this thesis addressed the respective
impact of 5-HTT and NPSR1 variants on the neuroendocrine, i.e. salivary cortisol
response to acute psychosocial stress by applying the Maastricht Acute Stress Test
(MAST). A direct effect of NPSR1 – but not 5-HTT – on the modulation of acute
stress reactivity could be discerned, with carriers of the more active NPSR1 T allele
Summary
III
displaying significantly higher overall salivary cortisol levels in response to the MAST
compared to AA genotype carriers.
In summary, study 1 observed a moderating effect of GSE in interaction with
childhood maltreatment and 5-HTT and NPSR1, respectively, in an extended GxExC
model of anxiety risk, which may serve to inform targeted preventive interventions
mitigating GxE risk constellations and to improve therapeutic interventions by
strengthening coping ability as a protective mechanism to promote resilient
functioning. In study 2, a modulation of HPA axis function, considered to be an
endophenotype of stress-related mental disorders, by NPSR1 gene variation could be
discerned, suggesting neuroendocrine stress reactivity as an important potential
intermediate phenotype of anxiety given findings linking NPSR1 to dimensional and
categorical anxiety. Results from both studies may converge within the framework of
a multi-level model of anxiety risk, integrating neurobiological, neuroendocrine,
environmental, and psychological factors that act together in a highly complex
manner towards increasing or decreasing anxiety risk.
The aim of this thesis was to develop new automatic enhanced sampling methods by extending the idea of Parrinello’s metadynamics to multistate problems and by introducing new quantum-mechanical electronic collective variables. These methods open up a rich perspective for applications to the photophysical processes in complex molecular systems, which play a major role in many natural processes such as vision and photosynthesis, but also in the development of new materials for organic electronics, whose function depends on specific electronic properties such as biradicalicity.
This dissertation employs gauge/gravity duality to investigate features
of ( 2 + 1 ) -dimensional quantum gravity in Anti-de Sitter space (AdS)
and its relation to conformal field theory (CFT) in 1 + 1 dimensions.
Concretely, we contribute to research on the frontier of gauge/gravity
with condensed matter as well as the frontier with quantum informa-
tion.
The first research topic of this thesis is motivated by the Kondo
model, which describes the screening of magnetic impurities in metals
by conduction electrons at low temperatures. This process has a de-
scription in the language of string theory via fluctuating surfaces in
spacetime, called branes. At high temperatures the unscreened Kondo
impurity is modelled by a stack of pointlike branes. At low tempera-
tures this stack condenses into a single spherical, two-dimensional brane
which embodies the screened impurity.
This thesis demonstrates how this condensation process is naturally
reinvoked in the holographic D1/D5 system. We find brane configu-
rations mimicking the Kondo impurities at high and low energies and
establish the corresponding brane condensation, where the brane grows
two additional dimensions. We construct supergravity solutions, which
fully take into account the effect of the brane on its surrounding space-
time before and after the condensation takes place. This enables us
to compute the full impurity entropies through which we confirm the
validity of the g-theorem.
The second research topic is rooted in the connection of geometry
with quantum information. The motivation stems from the “complexity
equals volume” proposal, which relates the volume of wormholes to
the cicruit complexity of a thermal quantum state. We approach this
proposal from a pragmatic point of view by studying the properties of
certain volumes in gravity and their description in the CFT.
We study subregion complexities, which are the volumes of the re-
gions subtended by Ryu-Takayanagi (RT) geodesics. On the gravity
side we reveal their topological properties in the vacuum and in ther-
mal states, where they turn out to be temperature independent. On the
field theory side we develop and proof a formula using kinematic space
which computes subregion complexities without referencing the bulk.
We apply our formula to global AdS 3 , the conical defect and a black
hole. While entanglement, i.e. minimal boundary anchored geodesics,
suffices to produce vacuum geometries, for the conical defect we also
need geodesics windings non-trivially around the singularity. The black
hole geometry requires additional thermal contributions.
The indepth metabolic profiling of the crude extracts of two African Ancistrocladus species viz. A. likoko from Central Africa and A. abbreviatus from West Africa, resulted in a total of 87 alkaloids among them 54 new ones. All of the compounds were intensely elucidated by 1D and 2D NMR, HRESIMS, as well as chemical and chiroptical techniques.
Among the newly discovered compounds are quinoid naphthylisoquinolines with an ortho-diketone in the naphthalene portion, nor-naphthylisoquinoline alkaloid lacking the always present methyl group at C-1, seco-(ring cleaved) naphthylisoquinolines, and a newly discovered class of natural products called the naphthylisoindolinones.
Some of the compounds displayed strong antitumoral activities against human pancreatic cancer cells and leukemia cells in-vitro.
This work deals with a class of nonlinear dynamical systems exhibiting both continuous and discrete dynamics, which is called as hybrid dynamical system.
We provide a broader framework of generalized hybrid dynamical systems allowing us to handle issues on modeling, stability and interconnections.
Various sufficient stability conditions are proposed by extensions of direct Lyapunov method.
We also explicitly show Lyapunov formulations of the nonlinear small-gain theorems for interconnected input-to-state stable hybrid dynamical systems.
Applications on modeling and stability of hybrid dynamical systems are given by effective strategies of vaccination programs to control a spread of disease in epidemic systems.
In Tissue Engineering, scaffolds composed of natural polymers often show a distinct lack in stability. The natural polymer gelatin is highly fragile under physiological conditions, nevertheless displaying a broad variety of favorable properties. The aim of this study was to fabricate electrospun gelatin nanofibers, in situ functionalized and stabilized during the spinning process with highly reactive star polymer NCO-sP(EO-stat-PO) (“sPEG”). A spinning protocol for homogenous, non-beaded, 500 to 1000 nm thick nanofibers from different ratios of gelatin and sPEG was successfully established. Fibers were subsequently characterized and tested with SEM imaging, tensile tests, water incubation, FTIR, EDX, and cell culture. It was shown that adding sPEG during the spinning process leads to an increase in visible fiber crosslinking, mechanical stability, and stability in water. The nanofibers were further shown to be biocompatible in cell culture with RAW 264.7 macrophages.
Besides external characteristics and reading a piece of DNA (barcode), the DNA weight per nucleus (genome size) via flow cytometry is a key value to detect species and hybrids and determine ploidy. In addition, the DNA weight appears to be related to various properties, such as the size of the cell and the nucleus, the duration of mitosis and meiosis and the generation time. Sometimes it is even possible to distinguish between groups or sections, which can lead to new classification of the genera. The variation in DNA weight is also useful to analyze biodiversity, genome evolution and relationships between related taxa. Moreover, it is important to know how large a genome is before one determines the base sequence of the DNA of a plant. Flow cytometry is also important for understanding fundamental processes in plants such as growth and development and recognizing chimeras. In the literature, DNA weight measurements are usually limited to one genus and often only locally (Siljak et al. 2010; Bai et al. 2012). In this study, however, it was decided to investigate all vascular plants from one country. This can also contribute to the protection of rare plants. This study is the first flora in the world whose weight of DNA per nucleus and peak patterns has been determined. More than 6400 plants, representing more than 2350 (sub)species (more than 90%) have been collected, thanks to the help of almost 100 volunteers of Floristisch Onderzoek Nederland (Floron). Multiple specimens of many species have therefore been measured, preferably from different populations, in some cases more than fifty. For 1370 species, these values were not previously published. Moreover, a good number of the remaining 45% are new for The Netherlands. In principle, each species has a fixed weight of DNA per nucleus. It has also been found that, especially between the genera, there are strong differences in the number of peaks that determine the DNA weight, from one to five peaks. This indicates that in a plant or organ there are sometimes nuclei with multiples of its standard DNA weight (multiple ploidy levels). It is impossible to show graphs of more than 2350 species. Therefore, we have chosen to show the peak pattern in a new way in a short formula. Within most genera there are clear differences in the DNA weights per nucleus between the species, in some other genera the DNA weight is hardly variable. Based on about twenty genera that were previously measured completely in most cases (‘t Hart et al. 2003: Veldkamp and Zonneveld 2011; Soes et al. 2012; Dirkse et al. 2014, 2015; Verloove et al. 2017; Zonneveld [et al.] 2000−2018), it can be noted that even if all species of a genus have the same number of chromosomes, there can still be a difference of up to three times in the weight of the DNA. Therefore, a twice larger DNA weight does not have to indicate four sets of chromosomes. Finally, this research has also found clues to examine further the current taxonomy of a number of species or genera.
G protein-coupled receptor research looks out for new technologies to elucidate the complex
processes of receptor activation, function and downstream signaling with spatiotemporal
resolution, preferably in living cells and organisms. A thriving approach consists in making use
of the unsurpassed properties of light, including its high precision in space and time, noninvasiveness
and high degree of orthogonality regarding biological processes. This is realized
by the incorporation of molecular photoswitches, which are able to effectively respond to light,
such as azobenzene, into the structure of a ligand of a given receptor. The muscarinic
acetylcholine receptors belong to class A GPCRs and have received special attention in this
regard due to their role as a prototypic pharmacological system and their therapeutic potential.
They mediate the excitatory and inhibitory effects of the neurotransmitter acetylcholine and
thus regulate diverse important biological processes, especially many neurological functions in
our brain.
In this work, the application of photopharmacological tool compounds to muscarinic receptors
is presented, consisting of pharmacophores extended with azobenzene as light-responsive
motif. Making use of the dualsteric concept, such photochromic ligands can be designed to bind
concomitantly to the orthosteric and allosteric binding site of the receptor, which is
demonstrated for BQCAAI (M1) and PAI (M2) and may lead to subtype- and functionalselective
photoswitchable ligands, suitable for further ex vivo and in vivo studies.
Moreover, photoswitchable ligands based on the synthetic agonist iperoxo were investigated
extensively with regard to their photochemical behavior and pharmacological profile, outlining
the advantages and challenges of using red-shifted molecular photoswitches, such as tetraortho-
fluoro azobenzene. For the first time on a GPCR it was examined, which impact the
different substitution pattern has on both the binding and the activity on the M1 receptor. Results
show that substituted azobenzenes in photopharmacological compounds (F4-photoiperoxo and
F4-iper-azo-iper) not just represent analogs with other photophysical properties but can exhibit
a considerably different biological profile that has to be investigated carefully.
The achievements gained in this study can give important new insights into the binding mode
and time course of activation processes, enabling precise spatial and temporal resolution of the
complex signaling pathway of muscarinic receptors. Due to their role as exemplary model
system, these findings may be useful for the investigation into other therapeutically relevant
GPCRs.
Since its first experimental implementation in 2005, single-molecule localization microscopy (SMLM) emerged as a versatile and powerful imaging tool for biological structures with nanometer resolution. By now, SMLM has compiled an extensive track-record of novel insights in sub- and inter- cellular organization.\\
Moreover, since all SMLM techniques rely on the analysis of emission patterns from isolated fluorophores, they inherently allocate molecular information $per$ $definitionem$.\\
Consequently, SMLM transitioned from its origin as pure high-resolution imaging instrument towards quantitative microscopy, where the key information medium is no longer the highly resolved image itself, but the raw localization data set.\\
The work presented in this thesis is part of the ongoing effort to translate those $per$ $se$ molecular information gained by SMLM imaging to insights into the structural organization of the targeted protein or even beyond. Although largely consistent in their objectives, the general distinction between global or segmentation clustering approaches on one side and particle averaging or meta-analyses techniques on the other is usually made.\\
During the course of my thesis, I designed, implemented and employed numerous quantitative approaches with varying degrees of complexity and fields of application.\\ \\
In my first major project, I analyzed the localization distribution of the integral protein gp210 of the nuclear pore complex (NPC) with an iterative \textit{k}-means algorithm. Relating the distinct localization statistics of separated gp210 domains to isolated fluorescent signals led, among others, to the conclusion that the anchoring ring of the NPC consists of 8 homo-dimers of gp210.\\
This is of particular significance, both because it answered a decades long standing question about the nature of the gp210 ring and it showcased the possibility to gain structural information well beyond the resolution capabilities of SMLM by crafty quantification approaches.\\ \\
The second major project reported comprises an extensive study of the synaptonemal complex (SNC) and linked cohesin complexes. Here, I employed a multi-level meta-analysis of the localization sets of various SNC proteins to facilitate the compilation of a novel model of the molecular organization of the major SNC components with so far unmatched extend and detail with isotropic three-dimensional resolution.\\
In a second venture, the two murine cohesin components SMC3 and STAG3 connected to the SNC were analyzed. Applying an adapted algorithm, considering the disperse nature of cohesins, led to the realization that there is an apparent polarization of those cohesin complexes in the SNC, as well as a possible sub-structure of STAG3 beyond the resolution capabilities of SMLM.\\ \\
Other minor projects connected to localization quantification included the study of plasma membrane glycans regarding their overall localization distribution and particular homogeneity as well as the investigation of two flotillin proteins in the membrane of bacteria, forming clusters of distinct shapes and sizes.\\ \\
Finally, a novel approach to three-dimensional SMLM is presented, employing the precise quantification of single molecule emitter intensities. This method, named TRABI, relies on the principles of aperture photometry which were improved for SMLM.\\
With TRABI it was shown, that widely used Gaussian fitting based localization software underestimates photon counts significantly. This mismatch was utilized as a $z$-dependent parameter, enabling the conversion of 2D SMLM data to a virtual 3D space. Furthermore it was demonstrated, that TRABI can be combined beneficially with a multi-plane detection scheme, resulting in superior performance regarding axial localization precision and resolution.\\
Additionally, TRABI has been subsequently employed to photometrically characterize a novel dye for SMLM, revealing superior photo-physical properties at the single-molecule level.\\
Following the conclusion of this thesis, the TRABI method and its applications remains subject of diverse ongoing research.
γ-Aminobutyric acid type A receptors (GABAARs) mediate the majority of fast synaptic inhibition in the central nervous system (CNS). GABAARs belong to the Cys-loop superfamily of pentameric ligand-gated ion channels (pLGIC) and are assembled from 19 different subunits. As dysfunctional GABAergic neurotransmission manifests itself in neurodevelopmental disorders including epilepsy and anxiety, GABAARs are key drug targets. The majority of synaptic GABAARs are anchored at the inhibitory postsynaptic membrane by the principal scaffolding protein gephyrin, which acts as the central organizer in maintaining the architecture of the inhibitory postsynaptic density (iPSD). This interaction is mediated by the long intracellular loop located in between transmembrane helices 3 and 4 (M3–M4 loop) of the receptors and a universal receptor-binding pocket residing in the C-terminal domain of gephyrin. In 2014, the crystal structure of the β3-homopentameric GABAAR provided crucial information regarding the architecture of the receptor; however, an understanding of the structure and assembly of heteropentameric receptors at the atomic level was lacking. This review article will highlight recent advances in understanding the structure of heteropentameric synaptic GABAARs and how these structures have provided fundamental insights into the assembly of these multi-subunit receptors as well as their modulation by diverse ligands including the physiological agonist GABA. We will further discuss the role of gephyrin in the anchoring of synaptic GABAARs and glycine receptors (GlyRs), which are crucial for maintaining the architecture of the iPSD. Finally, we will also summarize how anti-malarial artemisinin drugs modulate gephyrin-mediated inhibitory neurotransmission.
This dissertation deals with composite-based methods for structural equation models with latent variables and their enhancement. It comprises five chapters. Besides a brief introduction in the first chapter, the remaining chapters consisting of four essays cover the results of my PhD studies.Two of the essays have already been published in an international journal.
The first essay considers an alternative way of construct modeling in structural equation modeling.While in social and behavioral sciences theoretical constructs are typically modeled as common factors, in other sciences the common factor model is an inadequate way construct modeling due to its assumptions. This essay introduces the confirmatory composite analysis (CCA) analogous to confirmatory factor analysis (CFA). In contrast to CFA, CCA models theoretical constructs as composites instead of common factors. Besides the theoretical presentation of CCA and its assumptions, a Monte Carlo simulation is conducted which demonstrates that misspecifications of the composite model can be detected by the introduced test for overall model fit.
The second essay rises the question of how parameter differences can be assessed in the framework of partial least squares path modeling. Since the standard errors of the estimated parameters have no analytical closed-form, the t- and F-test known from regression analysis cannot be directly used to test for parameter differences. However, bootstrapping provides a solution to this problem. It can be employed to construct confidence intervals for the estimated parameter differences, which can be used for making inferences about the parameter difference in the population. To guide practitioners, guidelines were developed and demonstrated by means of empirical examples.
The third essay answers the question of how ordinal categorical indicators can be dealt with in partial least squares path modeling. A new consistent estimator is developed which combines the polychoric correlation and partial least squares path modeling to appropriately deal with the qualitative character of ordinal categorical indicators. The new estimator named ordinal consistent partial least squares combines consistent partial least squares with ordinal partial least squares. Besides its derivation, a Monte Carlo simulation is conducted which shows that the new estimator performs well in finite samples. Moreover, for illustration, an empirical example is estimated by ordinal consistent partial least squares.
The last essay introduces a new consistent estimator for polynomial factor models.
Similarly to consistent partial least squares, weights are determined to build stand-ins for the latent variables, however a non-iterative approach is used.
A Monte Carlo simulation shows that the new estimator behaves well in finite samples.
Polygonum cuspidatum (Japanese knotweed, also known as Huzhang in Chinese), a plant that produces bioactive components such as stilbenes and quinones, has long been recognized as important in traditional Chinese herbal medicine. To better understand the biological features of this plant and to gain genetic insight into the biosynthesis of its natural products, we assembled a draft genome of P. cuspidatum using Illumina sequencing technology. The draft genome is ca. 2.56 Gb long, with 71.54% of the genome annotated as transposable elements. Integrated gene prediction suggested that the P. cuspidatum genome encodes 55,075 functional genes, including 6,776 gene families that are conserved in the five eudicot species examined and 2,386 that are unique to P. cuspidatum. Among the functional genes identified, 4,753 are predicted to encode transcription factors. We traced the gene duplication history of P. cuspidatum and determined that it has undergone two whole-genome duplication events about 65 and 6.6 million years ago. Roots are considered the primary medicinal tissue, and transcriptome analysis identified 2,173 genes that were expressed at higher levels in roots compared to aboveground tissues. Detailed phylogenetic analysis demonstrated expansion of the gene family encoding stilbene synthase and chalcone synthase enzymes in the phenylpropanoid metabolic pathway, which is associated with the biosynthesis of resveratrol, a pharmacologically important stilbene. Analysis of the draft genome identified 7 abscisic acid and water deficit stress-induced protein-coding genes and 14 cysteine-rich transmembrane module genes predicted to be involved in stress responses. The draft de novo genome assembly produced in this study represents a valuable resource for the molecular characterization of medicinal compounds in P. cuspidatum, the improvement of this important medicinal plant, and the exploration of its abiotic stress resistance.
The respiratory system is amongst the most important compartments in the human body. Due to its connection to the external environment, it is one of the most common portals of pathogen entry. Airborne pathogens like measles virus (MV) carried in liquid droplets exhaled from the infected individuals via a cough or sneeze enter the body from the upper respiratory tract and travel down to the lower respiratory tract and reach the alveoli. There, pathogens are captured by the resident dendritic cells (DCs) or macrophages and brought to the lymph node where immune responses or, as in case of MV, dissemination via the hematopoietic cell compartment are initiated. Basic mechanisms governing MV exit from the respiratory tract, especially virus transmission from infected immune cells to the epithelial cells have not been fully addressed before. Considering the importance of these factors in the viral spread, a complex close-to-in-vivo 3D human respiratory tract model was generated. This model was established using de-cellularized porcine intestine tissue as a biological scaffold and H358 cells as targets for infection. The scaffold was embedded with fibroblast cells, and later on, an endothelial cell layer seeded at the basolateral side. This provided an environment resembling the respiratory tract where MV infected DCs had to transmigrate through the collagen scaffold and transmit the virus to epithelial cells in a Nectin-4 dependent manner. For viral transmission, the access of infected DCs to the recipient epithelial cells is an essential prerequisite and therefore, this important factor which is reflected by cell migration was analyzed in this 3D system.
The enhanced motility of specifically MV-infected DCs in the 3D models was observed, which occurred independently of factors released from the other cell types in the models. Enhanced motility of infected DCs in 3D collagen matrices suggested infection-induced cytoskeletal remodeling, as also verified by detection of cytoskeletal polarization, uropod formation. This enforced migration was sensitive to ROCK inhibition revealing that MV infection induces an amoeboid migration mode in DCs. In support of this, the formation of podosome structures and filopodia, as well as their activity, were reduced in infected DCs and retained in their uninfected siblings. Differential migration modes of uninfected and infected DCs did not cause differential maturation, which was found to be identical for both populations. As an underlying mechanism driving this enforced migration, the role of sphingosine kinase (SphK) and sphingosine-1-phosphate (S1P) was studied in MV-exposed cultures. It was shown in this thesis that MV-infection increased S1P production, and this was identified as a contributing factor as inhibition sphingosine kinase activity abolished enforced migration of MV-infected DCs. These findings revealed that MV infection induces a fast push-and-squeeze amoeboid mode of migration, which is supported by SphK/S1P axis. However, this push-and-squeeze amoeboid migration mode did not prevent the transendothelial migration of MV-infected DCs.
Altogether, this 3D system has been proven to be a suitable model to study specific parameters of mechanisms involved in infections in an in vivo-like conditions.
Herein described are the isolation, structural elucidation, and biological evaluation of highly thrilling monomeric and dimeric new naphthylisoquinoline alkaloids from A. ealaensis. The separation, chiral resolution, and characterization of a series of stereoisomeric 2,3-dihydrobenzofuran neolignans are also reported. The analytical and phytochemical analysis on two Congolese antimalarial herbal drugs is part of the last chapter of the results. In this last case, major concerns on widely used Congolese herbal drugs are discussed.
In addition to bradykinesia and tremor, patients with Parkinson’s disease (PD) are known to exhibit non-motor symptoms such as apathy and hypomimia but also impulsivity in response to dopaminergic replacement therapy. Moreover, a plethora of studies observe differences in electrocortical and autonomic responses to both visual and acoustic affective stimuli in PD subjects compared to healthy controls. This suggests that the basal ganglia (BG), as well as the hyperdirect pathway and BG thalamocortical circuits, are involved in affective processing. Recent studies have shown valence and dopamine-dependent changes in synchronization in the subthalamic nucleus (STN) in PD patients during affective tasks. This thesis investigates the role of dopamine, valence, and laterality in STN electrophysiology by analyzing event-related potentials (ERP), synchronization, and inter-hemispheric STN connectivity. STN recordings were obtained from PD patients with chronically implanted electrodes for deep brain stimulation during a passive affective picture presentation task. The STN exhibited valence-dependent ERP latencies and lateralized ‘high beta’ (28–40 Hz) event-related desynchronization. This thesis also examines the role of dopamine, valence, and laterality on STN functional connectivity with the anterior cingulate cortex (ACC) and the amygdala. The activity of these limbic structures was reconstructed using simultaneously recorded electroencephalographic signals. While the STN was found to establish early coupling with both structures, STN-ACC coupling in the ‘alpha’ range (7–11 Hz) and uncoupling in the ‘low beta’ range (14–21 Hz) were lateralized. Lateralization was also observed at the level of synchrony in both reconstructed sources and for ACC ERP amplitude, whereas dopamine modulated ERP latency in the amygdala. These results may deepen our current understanding of the STN as a limbic node within larger emotional-motor networks in the brain.
Protein kinase D1 deletion in adipocytes enhances energy dissipation and protects against adiposity
(2019)
Adaptation to alterations in nutrient availability ensures the survival of organisms. In vertebrates, adipocytes play a decisive role in this process due to their ability to store large amounts of excess nutrients and release them in times of food deprivation. In todays western world, a rather unlimited excess of nutrients leads to high-caloric food consumption in humans. Nutrient overload together with a decreased energy dissipation result in obesity as well as associated diseases such as insulin resistance, diabetes, and liver steatosis. Obesity causes a hormonal imbalance, which in combination with altered nutrient levels can aberrantly activate G-protein coupled receptors utilizing diacylglycerol (DAG) as secondary messenger. Protein kinase D (PKD) 1 is a DAG effector integrating multiple hormonal and nutritional inputs. Nevertheless, its physiological role in adipocytes has not been investigated so far. In this thesis, evidence is provided that the deletion of PKD1 in adipocytes suppresses lipogenesis as well as the accumulation of triglycerides. Furthermore, PKD1 depletion results in increased mitochondrial biogenesis as well as decoupling activity. Moreover, PKD1 deletion promotes the expression of the β3-adrenergic receptor (ADRB3) in a CCAAT/enhancer-binding protein (C/EBP)-α and δ-dependent manner. This results in elevated expression levels of beige markers in adipocytes in the presence of a β-agonist. Contrarily, adipocytes expressing a constitutive active form of PKD1 present a reversed phenotype. Additionally, PKD1 regulates adipocyte metabolism in an AMP-activated protein kinase (AMPK)-dependent manner by suppressing its activity through phosphorylation of AMPK α1/α2 subunits. Thus, PKD1 deletion results in an enhanced activity of the AMPK complex. Consistent with the in vitro findings, mice lacking PKD1 in adipocytes demonstrate a resistance to high-fat diet-induced obesity due to an elevated energy expenditure caused by trans-differentiation of white into beige adipocytes. Moreover, deletion of PKD1 in murine adipocytes improves systemic insulin sensitivity and ameliorates liver steatosis. Finally, PKD1 levels positively correlate with HOMA-IR as well as insulin levels in human subjects. Furthermore, inhibition of PKD1 in human adipocytes leads to metabolic alterations, which are comparable to the alterations seen in their murine counterparts. Taken together, these data demonstrate that PKD1 suppresses energy dissipation, drives lipogenesis, and adiposity. Therefore, increased energy dissipation induced by several complementary mechanisms upon PKD1 deletion might represent an attractive strategy to treat obesity and its related complications.
Doping plays a decisive role for the functionality of semiconductor-based (opto-)electronic
devices. Hence, the technological utilization of semiconductors necessitates control and a
fundamental understanding of the doping process. However, for low-dimensional systems like
carbon nanotubes, neither concentration nor distribution of charge carriers is currently well known.
The research presented in this thesis investigated the doping of semiconducting carbon nanotubes by spectroscopic methods. Samples of highly purified, intrinsic (6,5) single-wall carbon nanotubes were fabricated using polymer stabilization.
Chapter 4 showed that both electro- and redox chemical $p$-doping lead to identical bleaching,
blueshift, broadening and asymmetry of the S$_1$ exciton absorption band. The similar spectral changes induced by both doping schemes suggest that optical spectra can not be used to infer what process was used for doping. Perhaps more importantly, it also indicates that the distribution of charges and the character of the charge transfer states does not depend on the method by which doping was achieved.
The detailed analysis of the doping-induced spectral changes in chapter 5 suggests that surplus charges are distributed inhomogeneously. The hypothesis of carrier localization is consistent with the high sensitivity of the S$_1$ exciton photoluminescence to additional charge carriers and with the stretched-exponential decay of the exciton population following ultrafast excitation.
Both aspects are in good agreement with diffusion-limited contact quenching of excitons
at localized charges. Moreover, localized charges act – similar to structural defects – as
perturbations to the bandstructure as evidenced by a doping-induced increase of the D-band
antiresonance in the mid-infrared spectrum.
Quantum mechanical model calculations also suggest that counterions play a crucial role in
carrier localization. Counterion adsorption at the nanotube surface is thus believed to induce charge traps of more than 100 meV depth with a carrier localization length on the order of 3 - 4 nm. The doping-induced bleach of interband absorption is accompanied by an absorption increase in the IR region below 600 meV. The observed shift of the IR peak position indicates a continuous transition from localized to rather delocalized charge carriers. This transition is caused by the increase of the overlap of charge carrier wavefunctions at higher charge densities and was modeled by classical Monte-Carlo simulations of intraband absorption.
Chapter 6 discussed the spectroscopy of heavily (degenerately) doped nanotubes, which are
characterized by a Drude-response of free-carrier intraband absorption in the optical conductivity spectrum. In the NIR spectral region, the S$_1$ exciton and X$+^_1$ trion absorption is replaced by a nearly 1 eV broad and constant absorption signal, the so-called H-band. The linear and transient absorption spectra of heavily doped nanotubes suggest that the H-band can be attributed to free-carrier interband transitions.
Chapter 7 dealt with the quantification of charge carrier densities by linear absorption spectroscopy.
A particularly good measure of the carrier density is the S$_1$ exciton bleach. For a
bleach below about 50 %, the carrier density is proportional to the bleach. At higher doping
levels, deviations from the linear behavior were observed. For doping levels exceeding a
fully bleached S$_1$ band, the determination of the normalized oscillator strength f$\text{1st}$ over the
whole first subband region (trion, exciton, free e-h pairs) is recommended for quantification of carrier densities. Based on the nanotube density of states, the carrier density $n$ can be estimated using $n = 0.74\,\text{nm}^{−1} \cdot (1 − f_\text{1st})$.
In the last part of this thesis (chapter 8), the time-resolved spectroelectrochemistry was
extended to systems beyond photostable carbon nanotube films. The integration of a flowelectrolysis cell into the transient absorption spectrometer allows the investigation of in-situ electrochemically generated but photounstable molecules due to a continuous exchange of sample volume. First time-resolved experiments were successfully performed using the dye
methylene blue and its electrochemically reduced form leucomethylene blue.
A compound with a boron-boron triple bond is shown to undergo stepwise hydroboration reactions with catecholborane to yield an unsymmetrical hydro(boryl)diborene and a 2,3-dihydrotetraborane. Abstraction of H– from the latter compound produces an unusual cationic, planar tetraborane with a hydrogen atom bridging the central B2 moiety. Spectroscopic and crystallographic data and DFT calculations support a ‘protonated diborene’ structure for this compound, which can also be accessed via direct protonation of the corresponding diborene.
Bacterial meningitis occurs when blood-borne bacteria are able to penetrate highly specialized brain endothelial cells (BECs) and gain access to the meninges. Neisseria meningitidis (Nm) is a human-exclusive pathogen for which suitable in vitro models are severely lacking. Until recently, modeling BEC-Nm interactions has been almost exclusively limited to immortalized human cells that lack proper BEC phenotypes. Specifically, these in vitro models lack barrier properties, and continuous tight junctions. Alternatively, humanized mice have been used, but these must rely on known interactions and have limited translatability. This motivates the need to establish novel human-based in vitro BEC models that have barrier phenotypes to research Nm-BEC interactions. Recently, a human induced pluripotent stem cell (iPSC) model of BECs has been developed that possesses superior BEC phenotypes and closely mimics the in vivo blood vessels present at the blood-meningeal barrier.
Here, iPSC-BECs were tested as a novel cellular model to study Nm-host pathogen interactions, with focus on host responses to Nm infection. Two wild type strains and three mutant strains of Nm were used to confirm that these followed similar phenotypes to previously described models. Importantly, the recruitment of the recently published pilus adhesin receptor CD147 underneath meningococcal microcolonies could be verified in iPSC-BECs. Nm was also observed to significantly increase the expression of pro-inflammatory and neutrophil-specific chemokines IL6, CXCL1, CXCL2, CXCL8, and CCL20, at distinct time points of infection, and the secretion of IFN γ and RANTES by iPSC-BECs. Nm was directly observed to disrupt tight junction proteins ZO-1, Occludin, and Claudin-5 at late time points of infection, which became frayed and/or discontinuous upon infection. This destruction is preceded by, and might be dependent on, SNAI1 activation (a transcriptional repressor of tight junction proteins). In accordance with tight junction loss, a sharp loss in trans-endothelial electrical resistance, and an increase in sodium fluorescein permeability was observed at late infection time points. Notably, bacterial transmigration correlated with junctional disruption, indicating that the paracellular route contributes for bacterial crossing of BECs. Finally, RNA-Sequencing (RNA-Seq) of sorted, infected iPSC-BECs was established through the use of fluorescence-activated cell sorting (FACS) techniques following infection. This allowed the detection of expression data of Nm-responsive host genes not previously described thus far to play a role during meningitidis.
In conclusion, here the utility of iPSC-BECs in vitro to study Nm infection could be demonstrated. This is the first BEC in vitro model to express all major BEC tight junctions and to display high barrier potential. Altogether, here this model provides novel insights into Nm pathogenesis, including an impact of Nm on barrier properties and tight junction complexes and suggests that the paracellular route contributes to Nm traversal of BECs.
Social attention is a ubiquitous, but also enigmatic and sometimes elusive phenomenon.
We direct our gaze at other human beings to see what they are doing
and to guess their intentions, but we may also absorb social events en passant as
they unfold in the corner of the eye. We use our gaze as a discrete communication
channel, sometimes conveying pieces of information which would be difficult
to explicate, but we may also find ourselves avoiding eye-contact with others in
moments when self-disclosure is fear-laden. We experience our gaze as the most
genuine expression of our will, but research also suggests considerable levels of
predictability and automaticity in our gaze behavior. The phenomenon’s complexity
has hindered researchers from developing a unified framework which can
conclusively accommodate all of its aspects, or from even agreeing on the most
promising research methodologies.
The present work follows a multi-methods approach, taking on several aspects
of the phenomenon from various directions. Participants in study 1 viewed dynamic
social scenes on a computer screen. Here, low-level physical saliency (i.e.
color, contrast, or motion) and human heads both attracted gaze to a similar extent,
providing a comparison of two vastly different classes of gaze predictors in
direct juxtaposition. In study 2, participants with varying degrees of social anxiety
walked in a public train station while their eye movements were tracked. With
increasing levels of social anxiety, participants showed a relative avoidance of gaze
at near compared to distant people. When replicating the experiment in a laboratory
situation with a matched participant group, social anxiety did not modulate
gaze behavior, fueling the debate around appropriate experimental designs in the
field. Study 3 employed virtual reality (VR) to investigate social gaze in a complex
and immersive, but still highly controlled situation. In this situation, participants
exhibited a gaze behavior which may be more typical for real-life compared to laboratory situations as they avoided gaze contact with a virtual conspecific unless
she gazed at them. This study provided important insights into gaze behavior in
virtual social situations, helping to better estimate the possible benefits of this
new research approach. Throughout all three experiments, participants showed
consistent inter-individual differences in their gaze behavior. However, the present
work could not resolve if these differences are linked to psychologically meaningful
traits or if they instead have an epiphenomenal character.
Functional analysis of polarization and podosome formation of murine and human megakaryocytes
(2019)
In mammals, blood platelets are produced by large bone marrow (BM) precursor cells, megakaryocytes (MK) that extend polarized cell protrusions (proplateles) into BM sinusoids. Proplatelet formation (PPF) requires substantial cytoskeletal rearrangements that have been shown to involve the formation of podosomes, filamentous actin (F-actin) and integrin-rich structures. However, the exact molecular mechanisms regulating MK podosome formation, polarization and migration within the BM are poorly defined. According to current knowledge obtained from studies with other cell types, these processes are regulated by Rho GTPase proteins like RhoA and Cdc42.
In this thesis, polarization and podosome formation were investigated in MKs from genetically modified mice, as well as the cell lines K562 and Meg01 by pharmacological modulation of signaling pathways.
The first part of this thesis describes establishment of the basic assays for investigation of MK polarization. Initial data on polarization of the MK-like erythroleukemia cell line K562 revealed first insights into actin and tubulin dynamics of wild type (WT) and RhoA knock-out (RhoA-/-) K562 cells. Phorbol 12-myristate 13-acetate (PMA)-induction of K562 cells led to the expected MK-receptor upregulation but also RhoA depletion and altered polarization patterns.
The second part of this thesis focuses on podosome formation of MKs. RhoA is shown to be dispensable for podosome formation. Cdc42 is revealed as an important, but not essential regulator of MK spreading and podosome formation. Studies of signaling pathways of podosome formation reveal the importance of the tyrosine kinases Src, Syk, as well as glycoprotein (GP)VI in MK spreading and podosome formation.
This thesis provides novel insights into the mechanisms underlying polarization and podosome formation of MKs and reveals new, important information about cytoskeletal dynamics of MKs and potentially also platelets.
Protein kinase A (PKA) is the main effector of cyclic-adenosine monophosphate (cAMP) and plays an important role in steroidogenesis and proliferation of adrenal cells. In a previous study we found two mutations (L206R, 199_200insW) in the main catalytic subunit of protein kinase A (PKA C) to be responsible for cortisol-producing adrenocortical adenomas (CPAs). These mutations interfere with the formation of a stable holoenzyme, thus causing constitutive PKA activation. More recently, we identified additional mutations affecting PKA C in CPAs associated with overt Cushing syndrome: S213R+insIILR, 200_201insV, W197R, d244 248+E249Q, E32V.
This study reports a functional characterization of those PKA Cmutations linked to CPAs of Cushing’s patients. All analyzed mutations except for E32V showed a reduced interaction with at least one tested regulatory (R) subunit. Interestingly the results of the activity differed among the mutants and between the assays employed. For three mutants (L206R, 199_200insW, S213R+insIILR), the results showed enhanced translocation to the nucleus. This was also observed in CRISPR/Cas9 generated PRKACA L206R mutated HEK293T cells. The enhanced nuclear translocation of this mutants could be due to the lack of R subunit binding, but also other mechanisms could be at play. Additionally, I used an algorithm, which predicted an effect of the mutation on substrate specificity for four mutants (L206R, 199_200insW, 200_201insV, d244 248+E249Q). This was proven using phosphoproteomics for three mutants (L206R, 200_201insV, d244 248+E249Q). In PRKACA L206R mutated CPAs this change in substrate specificity also caused hyperphosphorylation of H1.4 on serine 36, which has been reported to be implicated in mitosis. Due to these observations, I hypothesized, that there are several mechanisms of action of PRKACA mutations leading to increased cortisol secretion and cell proliferation in adrenal cells: interference with the formation of a stable holoenzyme, altered subcellular localization and a change in substrate specificity. My data indicate that some PKA C mutants might act via just one, others by a combination of these mechanisms. Altogether, these findings indicate that several mechanisms contribute to the development of CPAs caused by PRKACA mutations. Moreover, these findings provide a highly illustrative example of how alterations in a protein kinase can cause a human disease.
The Myb-MuvB (MMB) multiprotein complex is a master regulator of cell cycle-dependent gene expression. Target genes of MMB are expressed at elevated levels in several different cancer types and are included in the chromosomal instability (CIN) signature of lung, brain, and breast tumors.
This doctoral thesis showed that the complete loss of the MMB core subunit LIN9 leads to strong proliferation defects and nuclear abnormalities in primary lung adenocarcinoma cells. Transcriptome profiling and genome-wide DNA-binding analyses of MMB in lung adenocarcinoma cells revealed that MMB drives the expression of genes linked to cell cycle progression, mitosis, and chromosome segregation by direct binding to promoters of these genes. Unexpectedly, a previously unknown overlap between MMB-dependent genes and several signatures of YAP-regulated genes was identified. YAP is a transcriptional co-activator acting downstream of the Hippo signaling pathway, which is deregulated in many tumor types. Here, MMB and YAP were found to physically interact and co-regulate a set of mitotic and cytokinetic target genes, which are important in cancer. Furthermore, the activation of mitotic genes and the induction of entry into mitosis by YAP were strongly dependent on MMB. By ChIP-seq and 4C-seq, the genome-wide binding of MMB upon YAP overexpression was analyzed and long-range chromatin interaction sites of selected MMB target gene promoters were identified. Strikingly, YAP strongly promoted chromatin-association of B-MYB through binding to distal enhancer elements that interact with MMB-regulated promoters through chromatin looping.
Together, the findings of this thesis provide a so far unknown molecular mechanism by which YAP and MMB cooperate to regulate mitotic gene expression and suggest a link between two cancer-relevant signaling pathways.
In recent years many discoveries have been made that reveal a close relation between quantum information and geometry in the context of the AdS/CFT correspondence. In this duality between a conformal quantum field theory (CFT) and a theory of gravity on Anti-de Sitter spaces (AdS) quantum information quantities in CFT are associated with geometric objects in AdS. Subject of this thesis is the examination of this intriguing property of AdS/CFT. We study two central elements of quantum information: subregion complexity -- which is a measure for the effort required to construct a given reduced state -- and the modular Hamiltonian -- which is given by the logarithm of a considered reduced state.
While a clear definition for subregion complexity in terms of unitary gates exists for discrete systems, a rigorous formulation for quantum field theories is not known.
In AdS/CFT, subregion complexity is proposed to be related to certain codimension one regions on the AdS side.
The main focus of this thesis lies on the examination of such candidates for gravitational duals of subregion complexity.
We introduce the concept of \textit{topological complexity}, which considers subregion complexity to be given by the integral over the Ricci scalar of codimension one regions in AdS. The Gauss-Bonnet theorem provides very general expressions for the topological complexity of CFT\(_2\) states dual to global AdS\(_3\), BTZ black holes and conical defects. In particular, our calculations show that the topology of the considered codimension one bulk region plays an essential role for topological complexity.
Moreover, we study holographic subregion complexity (HSRC), which associates the volume of a particular codimension one bulk region with subregion complexity. We derive an explicit field theory expression for the HSRC of vacuum states. The formulation of HSRC in terms of field theory quantities may allow to investigate whether this bulk object indeed provides a concept of subregion complexity on the CFT side. In particular, if this turns out to be the case, our expression for HSRC may be seen as a field theory definition of subregion complexity. We extend our expression to states dual to BTZ black holes and conical defects.
A further focus of this thesis is the modular Hamiltonian of a family of states \(\rho_\lambda\) depending on a continuous parameter \(\lambda\). Here \(\lambda\) may be associated with the energy density or the temperature, for instance.
The importance of the modular Hamiltonian for quantum information is due to its contribution to relative entropy -- one of the very few objects in quantum information with a rigorous definition for quantum field theories.
The first order contribution in \(\tilde{\lambda}=\lambda-\lambda_0\) of the modular Hamiltonian to the relative entropy between \(\rho_\lambda\) and a reference state \(\rho_{\lambda_0}\) is provided by the first law of entanglement. We study under which circumstances higher order contributions in \(\tilde{\lambda}\) are to be expected.
We show that for states reduced to two entangling regions \(A\), \(B\) the modular Hamiltonian of at least one of these regions is expected to provide higher order contributions in \(\tilde{\lambda}\) to the relative entropy if \(A\) and \(B\) saturate the Araki-Lieb inequality. The statement of the Araki-Lieb inequality is that the difference between the entanglement entropies of \(A\) and \(B\) is always smaller or equal to the entanglement entropy of the union of \(A\) and \(B\).
Regions for which this inequality is saturated are referred to as entanglement plateaux. In AdS/CFT the relation between geometry and quantum information provides many examples for entanglement plateaux. We apply our result to several of them, including large intervals for states dual to BTZ black holes and annuli for states dual to black brane geometries.
Regulation of gene expression by the control of transcription is essential for any cell to adapt to the environment and survive. Transcription regulators, i.e. sequence-specific DNA binding proteins that regulate gene expression, are central elements within the gene networks of most organisms. Transcription regulators are grouped into distinct families based on structural features that determine, to a large extent, the DNA sequence(s) that they can recognise and bind. Less is known, however, about how the DNA binding preferences can diversify within transcription regulator families during evolutionary timescales, and how such diversification can affect the biology of the organism.
In this dissertation I study the SREBP (sterol regulatory element binding protein) family of transcriptional regulators in yeasts, and in Candida albicans in particular, as an experimental system to address these questions. The SREBPs are conserved from fungi to humans and represent a subgroup of basic helix-loop-helix DNA binding proteins. Early chromatin immunoprecipitation experiments with SREBPs from humans and yeasts showed that these proteins bound in vivo to the canonical DNA sequence, termed E-box, most basic helix-loop-helix proteins bind to. By contrast, most recent analysis carried out with less-studied fungal SREBPs revealed a non-canonical DNA motif to be the most overrepresented sequence in the bound regions.
This study aims to establish the intrinsic DNA binding preferences of key branches of this family and to determine how the divergence in DNA binding affinities originated. To this end, I combined phylogenetic and ancestral reconstruction with extensive biochemical characterisation of key SREBP proteins. The results indicated that while the most-studied SREBPs (in mammals) indeed show preference for the E-box, a second branch of the family preferentially binds the non-E-box, and a third one is able to bind both sequences with similar affinity. The preference for one or the other DNA sequence is an intrinsic property of each protein because their purified DNA binding domain was sufficient to recapitulate their in vivo binding preference. The ancestor that gave rise to these two different types of SREBPs (the branch that binds E-box and the one that binds non-E-box DNA) appears to be a protein with a broader DNA binding capability that had a slight preference for the non-canonical motif. Thus, the results imply these two branches originated by either enhancing the original ancestral preference for non-E-box or tilting it towards the E-box DNA and flipping the preference for this sequence.
The main function associated with members of the SREBP family in most eukaryotes is the control of lipid biosynthesis. I have further studied the function of these proteins in the lineage that encompasses the human associated yeast C. albicans. Strikingly, the three SREBPs present in the fungus’ genome contribute to the colonisation of the mammalian gut by regulating cellular processes unrelated to lipid metabolism. Here I describe that two of the three C. albicans SREBPs form a regulatory cascade that regulates morphology and cell wall modifications under anaerobic conditions, whereas the third SREBP has been shown to be involved in the regulation of glycolysis genes.
Therefore, I posit that the described diversification in DNA binding specificity in these proteins and the concomitant expansion of targets of regulation were key in enabling this fungal lineage to associate with animals.
The topic of this thesis is generalizations of the Anti de Sitter/Conformal Field Theory (AdS/CFT) correspondence, often referred to as holography, and their application to models relevant for condensed matter physics. A particular virtue of AdS/CFT is to map strongly coupled quantum field theories, for which calculations are inherently difficult, to more tractable classical gravity theories. I use this approach to study the crossover between Bose-Einstein condensation (BEC) and the Bardeen-Cooper-Schrieffer (BCS) superconductivity mechanism. I also study the phase transitions between the AdS black hole and AdS soliton spacetime in the presence of disorder. Moreover, I consider a holographic model of a spin impurity interacting with a strongly correlated electron gas, similar to the Kondo model.
In AdS/CFT, the BEC/BCS crossover is modeled by a soliton configuration in the dual geometry and we study the BEC and BCS limits. The backreaction of the matter field on the background geometry is considered, which provides a new approach to study the BEC/BCS crossover. The behaviors of some physical quantities such as depletion of charge density under different strength of backreaction are presented and discussed. Moreover, the backreaction enables us to obtain the effective energy density of the soliton configurations, which together with the surface tension of the solitons leads to an argument for the occurrence of so called snake instability for dark solitons, i.e. for the solitons to form a vortex-like structures.
Disordering strongly coupled and correlated quantum states of matter may lead to new insights into the physics of many body localized (MBL) strongly correlated states, which may occur in the presence of strong disorder. We are interested in potential insulator-metal transitions induced by disorder, and how disorder affects the Hawking-Page phase transition in AdS gravity in general. We introduce a metric ansatz and numerically construct the corresponding disordered AdS soliton and AdS black hole solutions, and discuss the calculation of the free energy in these states.
In the Kondo effect, the rise in resistivity in metals with scarce magnetic impurities at low temperatures can be explained by the RG flow of the antiferromagnetic coupling between the impurity and conduction electrons in CFT. The generalizations to SU(N) in the large N limit make the treatment amenable to the holographic approach. We add a Maxwell term to a previously existing holographic model to study the conductivity of the itinerant electrons. Our goal is to find the log(T) behavior in the DC resistivity. In the probe limit, we introduce junction conditions to connect fields crossing the defect. We then consider backreactions, which give us a new metric ansatz and new junction conditions for the gauge fields.
This publication is dedicated to investigate strong light-matter coupling with excitons in 2D materials. This work starts with an introduction to the fundamentals of excitons in 2D materials, microcavities and strong coupling in chapter 2. The experimental methods used in this work are explained in detail in chapter 3. Chapter 4 covers basic investigations that help to select appropriate materials and cavities for the following experiments. In chapter 5, results on the formation of exciton-polaritons in various materials and cavity designs are presented. Chapter 6 covers studies on the spin-valley properties of exciton-polaritons including effects such as valley polarization, valley coherence and valley-dependent polariton propagation. Finally, the formation of hybrid-polaritons and their condensation are presented in chapter 7.
Behavioral adaptation to environmental changes is crucial for animals’ survival. The prediction of the outcome of one owns action, like finding reward or avoiding punishment, requires recollection of past experiences and comparison with current situation, and adjustment of behavioral responses. The process of memory acquisition is called learning, and the Drosophila larva came up to be an excellent model organism for studying the neural mechanisms of memory formation. In Drosophila, associative memories are formed, stored and expressed in the mushroom bodies. In the last years, great progress has been made in uncovering the anatomical architecture of these brain structures, however there is still a lack of knowledge about the functional connectivity.
Dopamine plays essential roles in learning processes, as dopaminergic neurons mediate information about the presence of rewarding and punishing stimuli to the mushroom bodies. In the following work, the function of a newly identified anatomical connection from the mushroom bodies to rewarding dopaminergic neurons was dissected. A recurrent feedback signaling within the neuronal network was analyzed by simultaneous genetic manipulation of the mushroom body Kenyon cells and dopaminergic neurons from the primary protocerebral anterior (pPAM) cluster, and learning assays were performed in order to unravel the impact of the Kenyon cells-to-pPAM neurons feedback loop on larval memory formation.
In a substitution learning assay, simultaneous odor exposure paired with optogenetic activation of Kenyon cells in fruit fly larvae in absence of a rewarding stimulus resulted in formation of an appetitive memory, whereas no learning behavior was observed when pPAM neurons were ablated in addition to the KC activation. I argue that the activation of Kenyon cells may induce an internal signal that mimics reward exposure by feedback activation of the rewarding dopaminergic neurons. My data further suggests that the Kenyon cells-to-pPAM communication relies on peptidergic signaling via short neuropeptide F and underlies memory stabilization.
Viral infections induce a significant impact on various functional categories of biological processes in the host. The understanding of this complex modification of the infected host immune system requires a global and detailed overview on the infection process. Therefore it is essential to apply a powerful approach which identifies the involved components conferring the capacity to recognize and respond to specific pathogens, which in general are defeated in so-called compatible virus-plant infections. Comparative and integrated systems biology of plant-virus interaction progression may open a novel framework for a systemic picture on the modulation of plant immunity during different infections and understanding pathogenesis mechanisms. In this thesis these approaches were applied to study plant-virus infections during two main viral pathogens of cassava: Cassava brown streak virus and African cassava mosaic virus.
Here, the infection process was reconstructed by a combination of omics data-based analyses and metabolic network modelling, to understand the major metabolic pathways and elements underlying viral infection responses in different time series, as well as the flux activity distribution to gain more insights into the metabolic flow and mechanism of regulation; this resulted in simultaneous investigations on a broad spectrum of changes in several levels including the gene expression, primary metabolites, and enzymatic flux associated with the characteristic disease development process induced in Nicotiana benthamiana plants due to infection with CBSV or ACMV.
Firstly, the transcriptome dynamics of the infected plant was analysed by using mRNA-sequencing, in order to investigate the differential expression profile according the symptom developmental stage. The spreading pattern and different levels of biological functions of these genes were analysed associated with the infection stage and virus entity. A next step was the Real-Time expression modification of selected key pathway genes followed by their linear regression model. Subsequently, the functional loss of regulatory genes which trigger R-mediated resistance was observed. Substantial differences were observed between infected mutants/transgenic lines and wild-types and characterized in detail. In addition, we detected a massive localized accumulation of ROS and quantified the scavenging genes expression in the infected wild-type plants relative to mock infected controls.
Moreover, we found coordinated regulated metabolites in response to viral infection measured by using LC-MS/MS and HPLC-UV-MS. This includes the profile of the phytohormones, carbohydrates, amino acids, and phenolics at different time points of infection with the RNA and DNA viruses. This was influenced by differentially regulated enzymatic activities along the salicylate, jasmonate, and chorismate biosynthesis, glycolysis, tricarboxylic acid cycle, and pentose phosphate pathways, as well as photosynthesis, photorespiration, transporting, amino acid and fatty acid biosynthesis. We calculated the flux redistribution considering a gradient of modulation for enzymes along different infection stages, ranging from pre-symptoms towards infection stability.
Collectively, our reverse-engineering study consisting of the generation of experimental data and modelling supports the general insight with comparative and integrated systems biology into a model plant-virus interaction system. We refine the cross talk between transcriptome modification, metabolites modulation and enzymatic flux redistribution during compatible infection progression. The results highlight the global alteration in a susceptible host, correlation between symptoms severity and the alteration level. In addition we identify the detailed corresponding general and specific responses to RNA and DNA viruses at different stages of infection. To sum up, all the findings in this study strengthen the necessity of considering the timing of treatment, which greatly affects plant defence against viral infection, and might result in more efficient or combined targeting of a wider range of plant pathogens.
A fundamental question in current biology concerns the translational mechanisms leading from genetic variability to phenotypes. Technologies have evolved to the extent that they can efficiently and economically determine an individual’s genomic composition, while at the same time big data on clinical profiles and diagnostics have substantially accumulated. Genome-wide association studies linking genomic loci to certain traits, however, remain limited in their capacity to explain the cellular mechanisms that underlie the given association. For most associations, gene expression has been blamed; yet given that transcript and protein abundance oftentimes do not correlate, that finding does not necessarily decrypt the underlying mechanism. Thus, the integration of further information is crucial to establish a model that could prove more accurate in predicting genotypic effects on the human organism.
In this work we describe the so-called proteotype as a feature of the cell that could provide a substantial link between genotype and phenotype. Rather than looking at the proteome as a set of independent molecules, we demonstrate a consistent modular architecture of the proteome that is driven by molecular cooperativity. Functional modules, especially protein complexes, can be further interrogated for differences between individuals and tackled as imprints of genetic and environmental variability. We also show that subtle stoichiometric changes of protein modules could have broader effects on the cellular system, such as the transport of specific molecular cargos.
The presented work also delineates to what extent temporal events and processes influence the stoichiometry of protein complexes and functional modules. The re-wiring of the glycolytic pathway for example is illustrated as a potential cause for an increased Warburg effect during the ageing of the human bone marrow. On top of analyzing protein abundances we also interrogate proteome dynamics in terms of stability and solubility transitions during the short temporal progression of the cell cycle. One of our main observations in the thesis encompass the delineation of protein complexes into respective sub-complexes according to distinct stability patterns during the cell cycle. This has never been demonstrated before, and is functionally relevant for our understanding of the dis- and assembly of large protein modules.
The insights presented in this work imply that the proteome is more than the sum of its parts, and primarily driven by variability in entire protein ensembles and their cooperative nature. Analyzing protein complexes and functional modules as molecular reflections of genetic and environmental variations could indeed prove to be a stepping stone in closing the gap between genotype and phenotype and customizing clinical treatments in the future.
Social Cueing of Numerical Magnitude : Observed Head Orientation Influences Number Processing
(2019)
In many parts of the modern world, numbers are used as tools to describe spatial relationships, be it heights, latitudes, or distances. However, this connection goes deeper as a myriad of studies showed that number representations are rooted in space (vertical, horizontal, and/or radial). For instance, numbers were shown to affect spatial perception and, conversely, perceptions or movements in space were shown to affect number estimations. This bidirectional link has already found didactic application in the classroom when children are taught the meaning of numbers. However, our knowledge about the cognitive (and neuropsychological) processes underlying the numerical magnitude operations is still very limited.
Several authors indicated that the processing within peripersonal space (i.e. the space surrounding the body in reaching distance) and numerical magnitude operations are functionally equivalent. This assumption has several implications that the present work aims at describing. For instance, vision and visuospatial attention orienting play a prominent role for processing within peripersonal space. Indeed, both neuropsychological and behavioral studies also suggested a similar role of vision and visuospatial attention orienting for number processing. Moreover, social cognition research showed that movements, posture and gestures affect not only the representation of one's own peripersonal space, but also the visuospatial attention behavior of an observer. Against this background, the current work tests the specific implication of the functional equivalence assumption that the spatial attention response to an observed person’s posture should extend to the observer’s numerical magnitude operations.
The empirical part of the present work tests the spatial attention response of observers to vertical head postures (with continuing eye contact to the observer) in both perceptual and numerical space. Two experimental series are presented that follow both steps from the observation of another person’s vertical head orientation (within his/her peripersonal space) to the observer’s attention orienting response (Experimental series A) as well as from there to the observer’s magnitude operations with numbers (Experimental Series B). Results show that the observation of a movement from a neutral to a vertical head orientation (Experiment 1) as well as the observation of the vertical head orientation alone (Experiment 3) shifted the observer’s spatial attention in correspondence with the direction information of the observed head (up vs. down). Movement from a vertical to a neutral end position, however, had no effect on the observer's spatial attention orienting response (Experiment 2). Furthermore, following down-tilted head posture (relative to up- or non-tilted head orientation), observers generated smaller numbers in a random number generation task (range 1- 9, Experiment 4), gave smaller estimates to numerical trivia questions (mostly multi-digit numbers, Experiment 5) and chose response keys less frequently in a free choice task that was associated with larger numerical magnitude in a intermixed numerical magnitude task.
Experimental Series A served as groundwork for Experimental Series B, as it demonstrated that observing another person’s head orientation indeed triggered the expected directional attention orienting response in the observer. Based on this preliminary work, the results of Experimental Series B lend support to the assumption that numerical magnitude operations are grounded in visuospatial processing of peripersonal space. Thus, the present studies brought together numerical and social cognition as well as peripersonal space research. Moreover, the Empirical Part of the present work provides the basis for elaborating on the role of processing within peripersonal space in terms of Walsh’s (2003, 2013) Theory of Magnitude. In this context, a specification of the Theory of Magnitude was staked out in a processing model that stresses the pivotal role of spatial attention orienting. Implications for mental magnitude operations are discussed. Possible applications in the classroom and beyond are described.
Characterization of novel rhodopsins with light-regulated cGMP production or cGMP degradation
(2019)
Photoreceptors are widely occurring in almost all kingdoms of life. They mediate the first step in sensing electromagnetic radiation of different wavelength. Absorption spectra are found within the strongest radiation from the sun and absorption usually triggers downstream signaling pathways. Until now, mainly 6 classes of representative photoreceptors are known: five water-soluble proteins, of these three classes of blue light-sensitive proteins including LOV (light-oxygen-voltage), BLUF (blue-light using FAD), and cryptochrome modules with flavin (vitamin B-related) nucleotides as chromophore; while two classes of yellow and red light-sensitive proteins consist of xanthopsin and phytochrome, respectively. Lastly, as uniquely integral membrane proteins, the class of rhodopsins can usually sense over a wide absorption spectrum, ranging from ultra-violet to green and even red light. Rhodopsins can be further divided into two types, i.e., microbial (type I) and animal (type II) rhodopsins. Rhodopsins consist of the protein opsin and the covalently bound chromophore retinal (vitamin A aldehyde). In this thesis, I focus on identification and characterization of novel type I opsins with guanylyl cyclase activity from green algae and a phosphodiesterase opsin from the protist Salpingoeca rosetta.
Until 2014, all known type I and II rhodopsins showed a typical structure with seven transmembrane helices (7TM), an extracellular N-terminus and a cytosolic C-terminus. The proven function of the experimentally characterized type I rhodopsins was membrane transport of ions or the coupling to a transducer which enables phototaxis via a signaling chain. A completely new class of type I rhodopsins with enzymatic activity was identified in 2014. A light-activated guanylyl cyclase opsin was discovered in the fungus Blastocladiella emersonii which was named Cyclop (Cyclase opsin) by Gao et al. (2015), after heterologous expression and rigorous in-vitro characterization. BeCyclop is the first opsin for which an 8 transmembrane helices (8TM) structure was demonstrated by Gao et al. (2015). Earlier (2004), a novel class of enzymatic rhodopsins was predicted to exist in C. reinhardtii by expressed sequence tag (EST) and genome data, however, no functional data were provided up to now. The hypothetical rhodopsin included an N-terminal opsin domain, a fused two-component system with histidinekinase and response regulator domain, and a C-terminal guanylyl cyclase (GC) domain. This suggested that there could be a biochemical signaling cascade, integrating light-induction and ATP-dependent phosphate transfer, and as output the light-sensitive cGMP production.
One of my projects focused on characterizing two such opsins from the green algae Chlamydomonas reinhardtii and Volvox carteri which we then named 2c-Cyclop (two-component Cyclase opsin), Cr2c-Cyclop and Vc2c-Cyclop, respectively. My results show that both 2c-Cyclops are light-inhibited GCs. Interestingly, Cr2c-Cyclop and Vc2c-Cyclop are very sensitive to light and ATP-dependent, whereby the action spectra of Cr2c-Cyclop and Vc2c-Cyclop peak at ~540 nm and ~560 nm, respectively. More importantly, guanylyl cyclase activity is dependent on continuous phosphate transfer between histidine kinase and response regulator. However, green light can dramatically block phosphoryl group transfer and inhibit cyclase activity. Accordingly, mutation of the retinal-binding lysine in the opsin domain resulted in GC activity and lacking light-inhibition.
A novel rhodopsin phosphodiesterase from the protist Salpingoeca rosetta (SrRhoPDE) was discovered in 2017. However, the previous two studies of 2017 claimed a very weak or absent light-regulation. Here I give strong evidence for light-regulation by studying the activity of SrRhoPDE, expressed in Xenopus laevis oocytes, in-vitro at different cGMP concentrations. Surprisingly, hydrolysis of cGMP shows a ~100-fold higher turnover than that of cAMP. Light can enhance substrate affinity by decreasing the Km value for cGMP from 80 μM to 13 μM, but increases the maximum turnover only by ~30%. In addition, two key single mutants, SrRhoPDE K296A or K296M, can abolish the light-activation effect by interrupting a covalent bond of Schiff base type to the chromophore retinal. I also demonstrate that SrRhoPDE shows cytosolic N- and C- termini, most likely via an 8-TM structure. In the future, SrRhoPDE can be a potentially useful optogenetic tool for light-regulation of cGMP concentration, possibly after further improvements by genetic engineering.
In most foreign language learning contexts, there are only rare chance for contact with native speakers of the target language. In such a situation, reading plays an important role in language acquisition as well as in gaining cultural information about the target language and its speakers.
Previous research indicated that reading in foreign language is a complex process, which is influenced by various linguistic, cognitive and affective factors. The aim of the present study was to test two structural models of the relationship between reading comprehension in native language (L1), English language (L2) reading motivation, metacognitive awareness of L2 reading strategies, and reading comprehension of English as a foreign language among the two samples. Furthermore, the current study aimed to examine the differences between Egyptian and German students in their perceived usage of reading strategies during reading English texts, as well as to explore the pattern of their motivation toward reading English texts. For this purpose, 401 students were recruited from Germany (n=200) and Egypt (n=201) to participate in the current study. In order to have information about metacognitive awareness of reading strategies, a self-report questionnaire (SORS) developed by Moktari and Sheory (2002) was used. While the L2 reading motivation variable, was measured by a reading motivation survey (L2RMQ) which was based on reviewed reading motivation research. In addition, two reading tests were administrated one to measure reading comprehension for native language (German/Arabic) and the other to measure English reading comprehension.
To analyze the collected data, descriptive statistics and independent t-tests were performed. In addition, further analysis using structural equation modeling was applied to test the strength of relationships between the variables under study.
The results from the current research revealed that L1 reading comprehension, whether in a German or Arabic language, had the strongest relationship with L2 reading comprehension. However, the relationship between L2 intrinsic reading motivation was not proven to be significant in either the German or Egyptian models. On the other hand, the relationship between L2 extrinsic reading motivation, metacognitive awareness of reading strategies, and L2 reading comprehension was only proven significant in the German sample. The discussion of these results along with their pedagogical implications for education and practice will be illustrated in the following study.
A set of diboryldiborenes are prepared by the mild, catalyst-free, room-temperature diboration of the B–B triple bonds of doubly base-stabilized diborynes. Two of the product diboryldiborenes are found to be air- and water-stable in the solid state, an effect that is attributed to their high crystallinity and extreme insolubility in a wide range of solvents.
The study of main-group molecules that behave and react similarly to transition-metal (TM) complexes has attracted significant interest in recent decades. Most notably, the attractive idea of replacing the all-too-often rare and costly metals from catalysis has motivated efforts to develop main-group-element-mediated reactions. Main-group elements, however, lack the electronic flexibility of TM complexes that arises from combinations of empty and filled d orbitals and that seem ideally suited to bind and activate many substrates. In this review, we look at boron, an element that despite its nonmetal nature, low atomic weight, and relative redox staticity has achieved great milestones in terms of TM-like reactivity. We show how in interelement cooperative systems, diboron molecules, and hypovalent complexes the fifth element can acquire a truly metallomimetic character. As we discuss, this character is powerfully demonstrated by the reactivity of boron-based molecules with H2, CO, alkynes, alkenes and even with N2.
Main focus of the present dissertation was to gain new insight about the interaction between magnetic ions and the conduction band of diluted magnetic semiconductors. This interaction in magnetic semiconductors with carrier concentrations near the metal-insulator transition (MIT) in an external magnetic field is barely researched. Hence, n-doped Zn1−xMnxSe:Cl samples were studied.
Resonant Raman spectroscopy was employed at an external magnetic field between 1T and 7T and a temperature of 1.5K.
The resulting magnetization of the material amplifies the splitting of states with opposite spins both in the valence and the conduction band. This is known as the "giant-Zeeman-effect".
In this thesis, the resonance of the electron spin flip process, i.e. the enhancement of the signal depending on the excitation energy, was used as an indicator to determine the density of states of the charge carriers. The measured resonance profiles of each sample showed a structure, which consist of two partially overlapping Gaussian curves. The analysis of the Gaussian curves revealed that their respective maxima are separated independent of the magnetic field strenght by about 5 meV, which matches the binding energy of the donor bound exciton (D0, X).
A widening of the full width at half maximum of the resonance profile was observed with increasing magnetic field. A detailed analysis of this behavior showed that the donor bound exciton spin flip resonance primarily accounts for the widening for all samples with doping concentrations below the metal insulator transition. A model was proposed for the interpretation of this observation.
This is based on the fundamental assumptions of a spatially random distribution of the manganese ions on the group-II sublattice of the ZnSe crystal and the finite extension of the excitons. Thus, each exciton covers an individual quantity of manganese ions, which manifest as a local manganese concentration. This local manganese concentration is normally distributed for a set of excitons and hence, the evaluation of the distribution allows the determination of exciton radii
Two trends were identified for the (D0, X) radii. The radius of the bound exciton decreases with increasing carrier concentration as well as with increasing manganese concentration. The determination of the (D0, X) radii by the use of resonant spin flip Raman spectroscopy and also the observation of the behavior of the (D0, X) radius depending on the carrier concentration, was achieved for the first time.
For all samples with carrier concentrations below the metal-insulator transition, the obtained (X0) radii are up to a factor of 5.9 larger than the respective (D0, X) radii. This observation is explained by the unbound character of the (X0).
For the first time, such an observation could be made by Raman spectroscopy.Beside the resonance studies, the shape of the Raman signal of the electron spin flip was analyzed. Thereby an obvious asymmetry of the signal, with a clear flank to lower Raman shifts, was observed. This asymmetry is most pronounced, when the spin flip process is excited near the (D0, X) resonance.
To explain this observation, a theoretical model was introduced in this thesis. Based on the asymmetry of the resonantly excited spin flip signal, it was possible to estimate the (D0, X) radii, too. At external magnetic fields between 1.25T and 7T, the obtained radii lie between 2.38nm and 2.75nm.
Additionally, the asymmetry of the electron spin flip signal was observed at different excitation energies. Here it is striking that the asymmetry vanishes with increasing excitation energy. At the highest excitation energy, where the electron spin flip was still detectable, the estimated radius of the exciton is 3.92nm.
Beside the observations on the electron spin flip, the resonance behavior of the spin flip processes in the d-shell of the incorporated Mn ions was studied in this thesis. This was performed for the direct Mn spin flip process as well as for the sum process of the longitudinal optical phonon with the Mn spin flip. For the Stokes and anti-Stokes direct spin flip process and for the Stokes sum process, each the resonance curve is described by considering only one resonance mechanism. In contrast, resonance for the sum process in which an anti-Stokes Mn spin flip is involved, consists of two partially overlapping resonances due to different mechanisms. A detailed analysis of this resonance profile showed that for (Zn,Mn)Se at the chosen experimental parameters, an
incoming and outgoing resonance can be achieved, separated by a few meV.
Hereby, at a specific excitation energy range and a high excitation power, it was possible to achieve an inversion of the anti-Stokes to Stokes intensity, because only the anti-Stokes Mn spin flip process was enhanced resonantly.
The rich phase diagram of transition metal oxides essentially roots in the many body physics arising from strong Coulomb interactions within the underlying electron system.
Understanding such electronic correlation effects remains challenging for modern solid state physics, therefore experimental data is required for further progress in the field. For this reason, spectroscopic investigations of prototypical correlated materials are the scope of this thesis. The experimental methods focus on photoelectron spectroscopy, and the test materials are the correlated metal SrVO\(_3\) and the Mott insulator LaTiO\(_3\), both of which are fabricated as high quality thin films.
In SrVO\(_3\) thin films, a reduction of the film thickness induces a dimensional crossover from the metallic into the Mott insulating phase. In this thesis, an extrinsic chemical contribution from a surface over-oxidation is revealed that emerges additionally to the intrinsic change of the effective bandwidth usually identified to drive the transition. The two contributions are successfully disentangled by applying a capping layer that prevents the oxidation, allowing for a clean view on the dimensional crossover in fully stoichiometric samples. Indeed, these stoichiometric layers exhibit a higher critical thickness for the onset of the metallic phase than the bare and therefore over-oxidized thin films.
For LaTiO\(_3\) thin films, the tendency to over-oxidize is even stronger. An uncontrolled oxygen diffusion from the substrate into the film is found to corrupt the electronic properties of LaTiO\(_3\) layers grown on SrTiO\(_3\). The Mott insulating phase is only detected in stoichiometric films fabricated on more suitable DyScO\(_3\) substrates. In turn, it is demonstrated that a \(controlled\) incorporation of excess oxygen ions by increasing the oxygen growth pressure is an effective way of \(p\) doping the material which is used to drive the band filling induced Mott transition.
Gaining control of the oxygen stoichiometry in both materials allows for a systematic investigation of correlation effects in general and of the Mott transition in particular. The investigations are realized by various photoelectron spectroscopy techniques that provide a deep insight into the electronic structure. Resonant photoemission not only gives access to the titanium and vanadium related partial density of states of the valence band features, but also shows how the corresponding signal is enhanced by tuning the photon energy to the \(L\) absorption threshold. The enhanced intensity turns out to be very helpful for probing the Fermi surface topology and band dispersions by means of angular-resolved photoemission. The resulting momentum resolved electronic structure verifies central points of the theoretical description of the Mott transition, viz. the renormalization of the band width and a constant Luttinger volume in a correlated metal as the Mott phase is approached.
Molecular Effects of Polyphenols in Experimental Type 2 Diabetes Mellitus and Metabolic Syndrome
(2019)
The growing prevalence of type 2 diabetes mellitus (T2DM) demands novel therapeutic and adjuvant strategies. Polyphenols (PPs) are plant secondary metabolites. Epidemiological studies demonstrate an inverse relationship between their increased intake and the risk of development of T2DM and cardiovascular complications. However, the PPs’ mechanism of action remains largely unknown. The present work aimed to expand knowledge regarding the effects of PPs on diabetes relevant molecular targets.
Pycnogenol® (PYC) is a standardized pine bark extract which consists of oligomeric and monomeric PPs. Its anti-diabetic effects have been demonstrated in clinical trials. As a part of a human study involving 20 healthy volunteers, the extract’s effects on dipeptidyl peptidase IV (DPP IV) were investigated. This protease terminates the insulin secretagogue action of incretins. Its inhibition is a promising strategy in T2DM treatment. This study uncovered that PYC-intake of 100 mg daily over 14 days statistically significantly reduced DPP IV serum concentrations by 8.2 % (n= 38, p= 0.032). Contrary to expectations, this decrease was not paralleled by a reduction in the serum DPP IV enzymatic activity. To the best of our knowledge, the present study was the first investigating the effects of PPs on DPP IV serum concentrations and activities in humans. The finding that PYC is capable of reducing DPP IV serum concentrations might be important with regard to diabetes, where DPP IV levels are increased.
Screenings for PPs’ in vitro effects on DPP IV activity were performed employing a purified enzyme. The effects of tested PPs (among which PYC ingredients) at a physiologically relevant concentration of 5 µM were weak (< 10 %) and too small compared to the reference compound sitagliptin, and thus not likely to be clinically relevant. This result is in discordance with some published data, but consistent with the outcome from the present human study. In addition, fluorescence interactions with the experimental setup were registered: under certain conditions urolithin B exhibited an autofluorescence which might mask eventual inhibitory activity. Quercetin quenched the fluorescence slightly which might contribute to false positive results. No statistically significant effects of selected constituents and metabolites of PYC on the total DPP IV protein expression were observed in 3T3-L1 adipocytes. Thus, the lower DPP IV in vivo concentrations after intake of PYC cannot be explained with down-regulation of the DPP IV expression in adipocytes.
Akt kinase is responsible for the transmission of insulin signals and its dysregulation is related to insulin resistance and plays an important role in development of cardiovascular complications in T2DM. Thus, the modulation of the phosphorylation status of endothelial Akt-kinase, respectively its activity, might be a promising strategy in the management of these pathologies. This work aimed to uncover the effects of PPs from different structural subclasses on Akt-phosphorylation (pAkt) in endothelial cells (Ea.hy926). Short-term effects (5 – 30 min) were investigated at a concentration of 10 µM. In a pilot study two model PPs induced a moderate, but reproducible inhibition of pAkt Ser473 of 52.37 ± 21.01 % (quercetin; p= 0.006, n= 3) and 37.79 ± 7.14 % (resveratrol; p= 0.021, n= 4) compared to the negative control. A primary screening with Western blot analysis investigated the effects of eight compounds from different subclasses on pAkt Ser473 and Thr308 to reveal whether the observed inhibition PPs a group effect or specific to certain compounds. In addition to resveratrol and quercetin, statistically significant inhibitions of pAkt Ser473 were induced by luteolin (29.96 ± 11.06 %, p< 0.01, n= 6) and apigenin (22.57 ± 10.30 %, p< 0.01, n= 6). In contrast, genistein, 3,4,5-trimethoxystilbene, taxifolin and (+)-catechin caused no inhibition. A strong positive and statistically significant correlation between the mean inhibitory effects of the tested PPs on both Akt-residues Ser473 and Thr308 (r= 0.9478, p= 0.0003) was determined. A comprehensive secondary screening via ELISA involving 44 compounds from nine structural groups quantified the effects of PPs on pAkt Ser473 to uncover potential structure-activity features. The most potent inhibitors were luteolin (44.31 ± 17.95 %), quercetin (35.71 ± 8.33 %), urolithin A (35.28 ± 11.80 %), apigenin (31.79 ± 6.16 %), fisetin (28.09 ± 9.09 %), and resveratrol (26.04 ± 5.58 %). These effects were statistically significant (p< 0.01, n= 3 to 6). Further lead structure optimization might be based on the fact that the effects of luteolin and resveratrol also differed statistically significantly from each other (p= 0.008).
To the best of our knowledge, the present study is the first to compare quantitatively the short term effects of PPs from different subclasses on pAkt in endothelial cells. Basic structure-activity relationships revealed that for flavones and flavonols the presence of a C2=C3 double bond (ring C) was essential for inhibitory activity and hydroxylation on the m- and p- positions in the ring B contributed to it. For stilbenoids, three free OH-groups appeared to be optimal. The comparison of the inhibitory potentials of ellagic acid and its microbial metabolites showed that urolithin A was statistically significantly more effective than its progenitor compound. Despite their structural similarities, the only active compound among all urolithins tested was urolithin A, hydroxylated at the C3 and C8 positions. This suggested a specific effect for urolithin A. Based on the common structural determinants and molecular geometry of the most active PPs a pharmacophore model regarding Akt-inhibition was proposed.
In summary, the effects of a wide variety of PPs from diverse structural subclasses on the in vitro phosphorylation of endothelial Akt were quantitatively analyzed for the first time, the effects of previously undescribed compounds were determined and structure activity relationships were elucidated. The inhibitory potential of individual PPs might be beneficial in cases of sustained over-activation of Akt-kinase and its substrates such as S6 kinase as reported for certain T2DM-related pathological states, such as insulin resistance, endothelial dysfunction, excessive angiogenesis, vascular calcification, and insulin triggered DNA-damage. The results of the present work suggest potential molecular mechanisms of action of PP involving Akt-inhibition and DPP IV-down-regulation and thus contribute to the understanding of anti-diabetic effects of these compounds on the molecular level.
Research on the deployment and use of technology to assist learning has seen a significant
rise over the last decades (Aparicio et al., 2017). The focus on course quality, technology,
learning outcome and learner satisfaction in e-learning has led to insufficient attention by
researchers to individual characteristics of learners (Cidral et al., 2017 ; Hsu et al., 2013). The current work aims to bridge this gap by investigating characteristics identified by previous works and backed by theory as influential individual differences in e-learning. These learner characteristics have been suggested as motivational factors (Edmunds et al., 2012) in decisions by learners to interact and exchange information (Luo et al., 2017).
In this work e-learning is defined as interaction dependent information seeking and sharing enabled by technology. This is primarily approached from a media psychology perspective. The role of learner characteristics namely, beliefs about the source of knowledge (Schommer, 1990), learning styles (Felder & Silverman, 1988), need for affect (Maio & Esses, 2001), need for cognition (Cacioppo & Petty, 1982) and power distance (Hofstede, 1980) on interactions to seek and share information in e-learning are investigated. These investigations were shaped by theory and empirical lessons as briefly mentioned in the next paragraphs. Theoretical support for investigations is derived from the technology acceptance model(TAM) by psychologist Davis (1989) and the hyper-personal model by communication scientist Walther (1996). The TAM was used to describe the influence of learner characteristics on decisions to use e-learning systems (Stantchev et al., 2014). The hyper-personal model described why computer-mediated communication thrives in e-learning (Kaye et al., 2016) and how learners interpret messages exchanged online (Hansen et al., 2015). This theoretical framework was followed by empirical reviews which justified the use of interaction and information seeking-sharing as key components of e-learning as well as the selection of learner characteristics. The reviews provided suggestions for the measurement of variables (Kühl et al., 2014) and the investigation design (Dascalau et al., 2015). Investigations were designed and implemented through surveys and quasi experiments which were used for three preliminary studies and two main studies. Samples were selected from Germany and Ghana with same variables tested in both countries. Hypotheses were tested with interaction and information seeking-sharing as dependent variables while beliefs about the source of knowledge, learning styles, need for affect, need for cognition and power distance were independent variables. Firstly, using analyses of variance, the influence of beliefs about the source of knowledge on interaction choices of learners was supported. Secondly, the role of need for cognition on interaction choices of learners was supported by results from a logistic regression. Thirdly, results from multiple linear regressions backed the influence of need for cognition and power distance on information seeking-sharing behaviour of learners. Fourthly, the relationship between need for affect and need for cognition
was supported. The findings may have implications for media psychology research, theories used in this work, research on e-learning, measurement of learner characteristics and the design of e-learning platforms. The findings suggest that, the beliefs learners have about the source of knowledge, their need for cognition and their power distance can influence decisions to interact and seek or share information. The outlook from reviews and findings in this work predicts more research on learner characteristics and a corresponding intensity in the use of e-learning by individuals. It is suggested that future studies investigate the relationship between learner autonomy and power distance. Studies on inter-cultural similarities amongst e-learners in different populations are also
suggested.
In the past few years, two-dimensional quantum liquids with fractional excitations have been a topic of high interest due to their possible application in the emerging field of quantum computation and cryptography. This thesis is devoted to a deeper understanding of known and new fractional quantum Hall states and their stabilization in local models. We pursue two different paths, namely chiral spin liquids and fractionally quantized, topological phases.
The chiral spin liquid is one of the few examples of spin liquids with fractional statistics. Despite its numerous promising properties, the microscopic models for this state proposed so far are all based on non-local interactions, making the experimental realization challenging. In the first part of this thesis, we present the first local parent Hamiltonians, for which the Abelian and non-Abelian chiral spin liquids are the exact and, modulo a topological degeneracy, unique ground states. We have developed a systematic approach to find an annihilation operator of the chiral spin liquid and construct from it a many-body interaction which establishes locality. For various system sizes and lattice geometries, we numerically find largely gapped eigenspectra and confirm to an accuracy of machine precision the uniqueness of the chiral spin liquid as ground state of the respective system. Our results provide an exact spin model in which fractional quantization can be studied.
Topological insulators are one of the most actively studied topics in current condensed matter physics research. With the discovery of the topological insulator, one question emerged: Is there an interaction-driven set of fractionalized phases with time reversal symmetry? One intuitive approach to the theoretical construction of such a fractional topological insulator is to take the direct product of a fractional quantum Hall state and its time reversal conjugate. However, such states are well studied conceptually and do not lead to new physics, as the idea of taking a state and its mirror image together without any entanglement between the states has been well understood in the context of topological insulators. Therefore, the community has been looking for ways to implement some topological interlocking between different spin species. Yet, for all practical purposes so far, time reversal symmetry has appeared to limit the set of possible fractional states to those with no interlocking between the two spin species.
In the second part of this thesis, we propose a new universality class of fractionally quantized, topologically ordered insulators, which we name “fractional insulator”. Inspired by the fractional quantum Hall effect, spin liquids, and fractional Chern insulators, we develop a wave function approach to a new class of topological order in a two-dimensional crystal of spin-orbit coupled electrons. The idea is simply to allow the topological order to violate time reversal symmetry, while all locally observable quantities remain time reversal invariant. We refer to this situation as “topological time reversal symmetry breaking”. Our state is based on the Halperin double layer states and can be viewed as a two-layer system of an ↑-spin and a ↓-spin sphere. The construction starts off with Laughlin states for the ↑-spin and ↓-spin electrons and an interflavor term, which creates correlations between the two layers. With a careful parameter choice, we obtain a state preserving time reversal symmetry locally, and label it the “311-state”. For systems of up to six ↑-spin and six ↓-spin electrons, we manage to construct an approximate parent Hamiltonian with a physically realistic, local interaction.
The present thesis addresses cognitive processing of voice information. Based on general theoretical concepts regarding mental processes it will differentiate between modular, abstract information processing approaches to cognition and interactive, embodied ideas of mental processing. These general concepts will then be transferred to the context of processing voice-related information in the context of parallel face-related processing streams. One central issue here is whether and to what extent cognitive voice processing can occur independently, that is, encapsulated from the simultaneous processing of visual person-related information (and vice versa). In Study 1 (Huestegge & Raettig, in press), participants are presented with audio-visual stimuli displaying faces uttering digits.
Audiovisual gender congruency was manipulated: There were male and female faces, each uttering digits with either a male or female voice (all stimuli were AV- synchronized). Participants were asked to categorize the gender of either the face or the voice by pressing one of two keys in each trial. A central result was that audio-visual gender congruency affected performance: Incongruent stimuli were categorized slower and more error-prone, suggesting a strong cross-modal interaction of the underlying visual and auditory processing routes. Additionally, the effect of incongruent visual information on auditory classification was stronger than the effect of incongruent auditory information on visual categorization, suggesting visual dominance over auditory processing in the context of gender classification. A gender congruency effect was also present under high cognitive load. Study 2 (Huestegge, Raettig, & Huestegge, in press) utilized the same (gender-congruent and -incongruent) stimuli, but different tasks for the participants, namely categorizing the spoken digits (into odd/even or smaller/larger than 5). This should effectively direct attention away from gender information, which was no longer task-relevant. Nevertheless, congruency effects were still observed in this study. This suggests a relatively automatic processing of cross-modal gender information, which
eventually affects basic speech-based information processing. Study 3 (Huestegge, subm.) focused on the ability of participants to match unfamiliar voices to (either static or dynamic) faces. One result was that participants were indeed able to match voices to faces. Moreover, there was no evidence for any performance increase when dynamic (vs. mere static) faces had to be matched to concurrent voices. The results support the idea that common person-related source information affects both vocal and facial features, and implicit corresponding knowledge appears to be used by participants to successfully complete face-voice matching. Taken together, the three studies (Huestegge, subm.; Huestegge & Raettig, in press; Huestegge et al., in press) provided information to further develop current theories of voice processing (in the context of face processing). On a general level, the results of all three studies are not in line with an abstract, modular view of cognition, but rather lend further support to interactive, embodied accounts of mental processing.
Perovskite oxides are a very versatile material class with a large variety of outstanding physical properties.
A subgroup of these compounds particularly tempting to investigate are oxides involving high-\(Z\) elements, where spin-orbit coupling is expected to give rise to new intriguing phases and potential application-relevant functionalities. This thesis deals with the preparation and characterization of two representatives of high-\(Z\) oxide sample systems based on KTaO\(_3\) and BaBiO\(_3\).
KTaO\(_3\) is a band insulator with an electronic valence configuration of Ta 5\(d\)\(^0\) . It is shown that by pulsed laser deposition of a disordered LaAlO\(_3\) film on the KTaO\(_3\)(001) surface, through the creation of oxygen vacancies, a Ta 5\(d\)\(^{0+\(\delta\)}\) state is obtained in the upmost crystal layers of the substrate. In consequence a quasi two dimensional electron system (q2DES) with large spin-orbit coupling emerges at the heterointerface. Measurements of the Hall effect establish sheet carrier densities in the range of 0.1-1.2 10\(^{14}\) cm\(^2\), which can be controlled by the applied oxygen background pressure during deposition and the LaAlO\(_3\) film thickness. When compared to the prototypical oxide q2DESs based on SrTiO\(_3\) crystals, the investigated system exhibits exceptionally large carrier mobilities of up to 30 cm\(^2\)/Vs (7000 cm\(^2\)/Vs) at room temperature (below 10 K). Through a depth profiling by photoemission spectra of the Ta 4\(f\) core level it is shown that the majority of the Ta 5\(d\)\(^0\) charge carriers, consisting of mobile and localized electrons, is situated within 4 nm from the interface at low temperatures. Furthermore, the momentum-resolved electronic structure of the q2DES \(buried\) underneath the LaAlO\(_3\) film is probed by means of hard X-ray angle-resolved photoelectron spectroscopy. It is inferred that, due to a strong confinement potential of the electrons, the band structure of the system is altered compared to \(n\)-doped bulk KTO. Despite the constraint of the electron movement along one direction, the Fermi surface exhibits a clear three dimensional momentum dependence, which is related to a depth extension of the conduction channels of at least 1 nm.
The second material, BaBiO\(_3\), is a charge-ordered insulator, which has recently been predicted to emerge as a large-gap topological insulator upon \(n\)-doping. This study reports on the thin film growth of pristine BaBiO\(_3\) on Nb:SrTiO\(_3\)(001) substrates by means of pulsed laser deposition. The mechanism is identified that facilitates the development of epitaxial order in the heterostructure despite the presence of an extraordinary large lattice mismatch of 12 %. At the heterointerface, a structurally modified layer of about 1.7 nm thickness is formed that gradually relieves the in-plane strain and serves as the foundation of a relaxed BBO film. The thereupon formed lattice orders laterally in registry with the substrate with the orientation BaBiO\(_3\)(001)||SrTiO\(_3\)(001) by so-called domain matching, where 8 to 9 BaBiO\(_3\) unit cells align with 9 to 10 unit cells of the substrate. Through the optimization of the deposition conditions in regard to the cation stoichiometry and the structural lattice quality, BaBiO\(_3\) thin films with bulk-like electronic properties are obtained, as is inferred from a comparison of valence band spectra with density functional theory calculations. Finally, a spectroscopic survey of BaBiO\(_3\) samples of various thicknesses resolves that a recently discovered film thickness-controlled phase transition in BaBiO\(_3\) thin films can be traced back to the structural and concurrent stoichiometric modifications occuring in the initially formed lattice on top of the SrTiO\(_3\) substrate rather than being purely driven by the smaller spatial extent of the BBO lattice.