TY  - JOUR
A1  - Eisenhuth, Nicole
A1  - Vellmer, Tim
A1  - Rauh, Elisa T.
A1  - Butter, Falk
A1  - Janzen, Christian J.
T1  - A DOT1B/Ribonuclease H2 Protein Complex Is Involved in R-Loop Processing, Genomic Integrity, and Antigenic Variation in Trypanosoma brucei
JF  - mbio
N2  - The parasite Trypanosoma brucei periodically changes the expression of protective variant surface glycoproteins (VSGs) to evade its host's immune sys-tem in a process known as antigenic variation. One route to change VSG expres-sion is the transcriptional activation of a previously silent VSG expression site (ES), a subtelomeric region containing the VSG genes. Homologous recombination of a different VSG from a large reservoir into the active ES represents another route. The conserved histone methyltransferase DOT1B is involved in transcriptional silencing of inactive ES and influences ES switching kinetics. The molecular machin-ery that enables DOT1B to execute these regulatory functions remains elusive, however. To better understand DOT1B-mediated regulatory processes, we purified DOT1B-associated proteins using complementary biochemical approaches. We iden-tified several novel DOT1B interactors. One of these was the RNase H2 complex, previously shown to resolve RNA-DNA hybrids, maintain genome integrity, and play a role in antigenic variation. Our study revealed that DOT1B depletion results in an increase in RNA-DNA hybrids, accumulation of DNA damage, and ES switch-ing events. Surprisingly, a similar pattern of VSG deregulation was observed in RNase H2 mutants. We propose that both proteins act together in resolving R-loops to ensure genome integrity and contribute to the tightly regulated process of anti-genic variation.
KW  - DOT1B
KW  - R-loop
KW  - antigenic variation
KW  - chromatin structure
KW  - genomic integrity
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-260698
VL  - 12
IS  - 6
ER  - 
TY  - THES
A1  - Eisenhuth, Nicole Juliana
T1  - Novel and conserved roles of the histone methyltransferase DOT1B in trypanosomatid parasites
T1  - Neue und konservierte Rollen der Histonmethyltransferase DOT1B in Parasiten der Ordnung Trypanosomatida
N2  - The family of trypanosomatid parasites, including the human pathogens Trypanosoma brucei and Leishmania, has evolved sophisticated strategies to survive in harmful host environments. While Leishmania generate a safe niche inside the host’s macrophages, Trypanosoma brucei lives extracellularly in the mammalian bloodstream, where it is constantly exposed to the attack of the immune system. Trypanosoma brucei ensures its survival by periodically changing its protective surface coat in a process known as antigenic variation. The surface coat is composed of one species of ‘variant surface glycoprotein’ (VSG). Even though the genome possesses a large repertoire of different VSG isoforms, only one is ever expressed at a time from one out of the 15 specialized subtelomeric ‘expression sites’ (ES). Switching the coat can be accomplished either by a recombination-based exchange of the actively-expressed VSG with a silent VSG, or by a transcriptional switch to a previously silent ES. 
The conserved histone methyltransferase DOT1B methylates histone H3 on lysine 76 and is involved in ES regulation in T. brucei. DOT1B ensures accurate transcriptional silencing of the inactive ES VSGs and influences the kinetics of a transcriptional switch. The molecular machinery that enables DOT1B to execute these regulatory functions at the ES is still elusive, however. To learn more about DOT1B-mediated regulatory processes, I wanted to identify DOT1B-associated proteins. 
Using two complementary approaches, specifically affinity purification and proximity-dependent biotin identification (BioID), I identified several novel DOT1B-interacting candidates. To validate these data, I carried out reciprocal co-immunoprecipitations with the most promising candidates. An interaction of DOT1B with the Ribonuclease H2 protein complex, which has never been described before in any other organism, was confirmed. Trypanosomal Ribonuclease H2 maintains genome integrity by resolving RNA-DNA hybrids, structures that if not properly processed might initiate antigenic variation. I then investigated DOT1B’s contribution to this novel route to antigenic variation. Remarkably, DOT1B depletion caused an increased RNA-DNA hybrid abundance, accumulation of DNA damage, and increased VSG switching. Deregulation of VSGs from throughout the silent repertoire was observed, indicating that recombination-based switching events occurred. Encouragingly, the pattern of deregulated VSGs was similar to that seen in Ribonuclease H2-depleted cells. Together these data support the hypothesis that both proteins act together in modulating RNA-DNA hybrids to contribute to the tightly-regulated process of antigenic variation.
The transmission of trypanosomatid parasites to mammalian hosts is facilitated by insect vectors. Parasites need to adapt to the extremely different environments encountered during transmission. To ensure their survival, they differentiate into various specialized forms adapted to each tissue microenvironment. Besides antigenic variation, DOT1B additionally affects the developmental differentiation from the mammalian-infective to the insect stage of Trypanosoma brucei. However, substantially less is known about the influence of chromatin-associated proteins such as DOT1B on survival and adaptation strategies of related Leishmania parasites. To elucidate whether DOT1B’s functions are conserved in Leishmania, phenotypes after gene deletion were analyzed. As in Trypanosoma brucei, generation of a gene deletion mutant demonstrated that DOT1B is not essential for the cell viability in vitro. DOT1B deletion was accompanied with a loss of histone H3 lysine 73 trimethylation (the lysine homologous to trypanosomal H3K76), indicating that Leishmania DOT1B is also solely responsible for catalyzing this post-translational modification. As in T. brucei, dimethylation could only be observed during mitosis/cytokinesis, while trimethylation was detectable throughout the cell cycle in wild-type cells. In contrast to the trypanosome DOT1B, LmxDOT1B was not essential for differentiation in vitro. However, preliminary data indicate that the enzyme is required for effective macrophage infection. 
In conclusion, this study demonstrated that the identification of protein networks and the characterization of protein functions of orthologous proteins from related parasites are effective tools to improve our understanding of the parasite survival strategies. Such insights are a necessary step on the road to developing better treatments for the devastating diseases they cause.
N2  - Vertreter der Familie der Trypanosomatidae einschließlich der humanpathogenen Trypanosoma brucei und Leishmania Arten entwickelten eine Reihe von ausgeklügelten Strategien, um in ihren Wirten zu überleben. Während sich Leishmanien eine sichere Nische in den Makrophagen ihrer Wirte aufbauen, lebt Trypanosoma brucei ausschließlich extrazellulär im Blutkreislauf der Säugetiere. Dort ist der Parasit ständig dem Angriff des Immunsystems ausgesetzt. Um sein Überleben zu sichern, wechselt er regelmäßig seine variablen Oberflächenproteine (VSG), eine Strategie, die auch als antigene Variation bekannt ist. Obwohl das Genom des Parasiten über ein enormes Repertoire an VSG Genen verfügt, wird immer nur eine einzige Art von einer von 15 spezialisierten telomerproximalen Expressionsstellen (ES) transkribiert. Um die VSG-Zelloberfläche zu wechseln, können Trypanosomen das VSG Gen der aktiven ES gegen ein inaktives VSG aus dem gigantischen Repertoire mittels Rekombination eintauschen. Eine weitere Möglichkeit ist der Transkriptionswechsel zu einer zuvor stillen ES.
Die konservierte Histonmethyltransferase DOT1B katalysiert die Methylierung von Histon H3 am Lysin 76 und ist an der ES-Regulation beteiligt. DOT1B gewährleistet den transkriptionell inaktiven Status der ES und beeinflusst die Kinetik eines transkriptionellen ES Wechsels. Die molekularen Komponenten, die DOT1B diese regulatorischen Funktionen an der ES ermöglichen, sind jedoch noch unbekannt. Um mehr über die von DOT1B vermittelten Mechanismen zu erfahren, ist es notwendig, DOT1B-assoziierte Proteine zu identifizieren. 
Durch die Anwendung von komplementären biochemischen Proteinaufreinigungsmethoden gelang es mir, mehrere potentielle Proteininteraktionen zu DOT1B zu entdecken. Um die Daten zu validieren, führte ich weitere Proteinaufreinigungen mit den vielversprechendsten Kandidaten durch. Eine Interaktion zwischen DOT1B und der Ribonuklease H2 konnte bestätigt werden - eine Interaktion, die noch nie zuvor in anderen Organismen beschrieben wurde. In Trypanosomen gewährleistet Ribonuklease H2 die Genomintegrität, indem das Enzym RNA-DNA-Hybride auflöst. Diese Strukturen können zudem, wenn sie nicht richtig prozessiert werden, antigene Variation initiieren. In dieser Studie wurde daher außerdem DOT1B’s Beitrag zu diesem Weg der Initiation der antigenen Variation analysiert. In der Tat konnte gezeigt werden, dass DOT1B RNA-DNA-Hybride moduliert und die Genomintegrität sowie VSG-Wechselrate beeinflusst. Die Tatsache, dass in DOT1B-Mutanten VSG Isoformen von den unterschiedlichsten Genomregionen exprimiert wurden, deutet darauf hin, dass rekombinations-basierte Ereignisse dem VSG-Wechsel zu Grunde lagen. Da in den DOT1B-Mutanten ähnliche VSG exprimiert wurden wie in Ribonuklease H2-Mutanten, kann vermutet werden, dass beide Proteine bei der Modulation der RNA-DNA-Hybride zusammenwirken, um antigene Variation zu regulieren.  
Trypanosomen und Leishmanien werden mittels Insektenvektoren auf den nächsten Säugerwirt übertragen. Sie müssen daher nicht nur im Säugerwirt überleben, sondern sich auch an die extrem unterschiedliche Umgebung im Vektor anpassen. Dafür differenzieren sich die Parasiten in speziell angepasste Zellstadien. Zusätzlich zu der antigenen Variation beeinflusst DOT1B die Entwicklungsdifferenzierung in Trypanosoma brucei. In Leishmanien hingegen ist über den Einfluss von chromatin-assoziierten Proteinen wie DOT1B auf die Überlebens- und Anpassungsstrategien wesentlich weniger bekannt. Um herauszufinden, ob die Funktionen von DOT1B in Leishmanien konserviert sind, wurden Phänotypen nach Gendeletion analysiert. Wie auch in Trypanosoma brucei konnte gezeigt werden, dass DOT1B für das Überleben der Parasiten nicht essentiell ist. Die Deletion von DOT1B ging mit einem Verlust der Trimethylierung von Histon H3 am Lysin 73 (dem zum trypanosomalen H3K76 homologen Lysin) einher, was darauf hinweist, dass DOT1B auch in Leishmanien allein für die Katalyse dieser posttranslationalen Modifikation verantwortlich ist. Wie in Trypanosoma brucei konnte eine Dimethylierung nur in der Mitose/Zytokinese beobachtet werden, wobei die Trimethylierung während des gesamten Zellzyklus in Wildtyp-Zellen nachweisbar war. Im Gegensatz zum trypanosomalen DOT1B war LmxDOT1B für die Differenzierung in vitro entbehrlich. Vorläufige Daten zeigen jedoch, dass das Enzym für eine wirksame Makrophageninfektion wesentlich ist.
Zusammenfassend zeigte diese Studie, dass die Identifizierung von Proteinnetzwerken und die Charakterisierung von Funktionen orthologer Proteine aus verwandten Parasiten wirksame Werkzeuge sind, um unser Verständnis der Überlebensstrategien der Parasiten zu verbessern. Solche Erkenntnisse sind ein notwendiger Schritt auf dem Weg zu effektiveren Behandlungsmethoden für die verheerenden Krankheiten, die diese Parasiten verursachen.
KW  - Trypanosoma brucei
KW  - Leishmania
KW  - Chromatin
KW  - Histon-Methyltransferase
KW  - DNA repair
KW  - developmental differentiation
KW  - DOT1
KW  - Ribonuclease H2
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-219936
ER  - 
TY  - JOUR
A1  - Eiring, Patrick
A1  - McLaughlin, Ryan
A1  - Matikonda, Siddharth S.
A1  - Han, Zhongying
A1  - Grabenhorst, Lennart
A1  - Helmerich, Dominic A.
A1  - Meub, Mara
A1  - Beliu, Gerti
A1  - Luciano, Michael
A1  - Bandi, Venu
A1  - Zijlstra, Niels
A1  - Shi, Zhen-Dan
A1  - Tarasov, Sergey G.
A1  - Swenson, Rolf
A1  - Tinnefeld, Philip
A1  - Glembockyte, Viktorija
A1  - Cordes, Thorben
A1  - Sauer, Markus
A1  - Schnermann, Martin J.
T1  - Targetable conformationally restricted cyanines enable photon-count-limited applications
JF  - Angewandte Chemie Internationale Edition
N2  - Cyanine dyes are exceptionally useful probes for a range of fluorescence-based applications, but their photon output can be limited by trans-to-cis photoisomerization. We recently demonstrated that appending a ring system to the pentamethine cyanine ring system improves the quantum yield and extends the fluorescence lifetime. Here, we report an optimized synthesis of persulfonated variants that enable efficient labeling of nucleic acids and proteins. We demonstrate that a bifunctional sulfonated tertiary amide significantly improves the optical properties of the resulting bioconjugates. These new conformationally restricted cyanines are compared to the parent cyanine derivatives in a range of contexts. These include their use in the plasmonic hotspot of a DNA-nanoantenna, in single-molecule Förster-resonance energy transfer (FRET) applications, far-red fluorescence-lifetime imaging microscopy (FLIM), and single-molecule localization microscopy (SMLM). These efforts define contexts in which eliminating cyanine isomerization provides meaningful benefits to imaging performance.
KW  - biology
KW  - super-resolution microscopy
KW  - conformational restriction
KW  - cyanine dyes
KW  - DNA nanotechnology
KW  - fluorescent dyes
KW  - single-molecule fluorescence spectroscopy
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-256559
VL  - 60
IS  - 51
ER  - 
TY  - THES
A1  - Eiring, Patrick
T1  - Super-resolution microscopy of plasma membrane receptors
T1  - Hochauflösende Mikroskopie von Plasmamembran Rezeptoren
N2  - Plasma membrane receptors are the most crucial and most commonly studied components of cells, since they not only ensure communication between the extracellular space and cells, but are also responsible for the regulation of cell cycle and cell division. The composition of the surface receptors, the so-called "Receptome", differs and is characteristic for certain cell types. Due to their significance, receptors have been important target structures for diagnostic and therapy in cancer medicine and often show aberrant expression patterns in various cancers compared to healthy cells. However, these aberrations can also be exploited and targeted by different medical approaches, as in the case of personalized immunotherapy. In addition, advances in modern fluorescence microscopy by so-called single molecule techniques allow for unprecedented sensitive visualization and quantification of molecules with an attainable spatial resolution of 10-20 nm, allowing for the detection of both stoichiometric and expression density differences. 
In this work, the single molecule sensitive method dSTORM was applied to quantify the receptor composition of various cell lines as well as in primary samples obtained from patients with hematologic malignancies. The focus of this work lies on artefact free quantification, stoichiometric analyses of oligomerization states and co localization analyses of membrane receptors.
Basic requirements for the quantification of receptors are dyes with good photoswitching properties and labels that specifically mark the target structure without generating background through non-specific binding. To ensure this, antibodies with a predefined DOL (degree of labeling) were used, which are also standard in flow cytometry. First background reduction protocols were established on cell lines prior analyses in primary patient samples. Quantitative analyses showed clear expression differences between the cell lines and the patient cells, but also between individual patients.
An important component of this work is the ability to detect the oligomerization states of receptors, which enables a more accurate quantification of membrane receptor densities compared to standard flow cytometry. It also provides information about the activation of a certain receptor, for example of FLT3, a tyrosine kinase, dimerizing upon activation. For this purpose, different well-known monomers and dimers were compared to distinguish the typical localization statistics of single bound antibodies from two or more antibodies that are in proximity. Further experiments as well as co localization analyses proved that antibodies can bind to closely adjacent epitopes despite their size.
These analytical methods were subsequently applied for quantification and visualization of receptors in two clinically relevant examples. Firstly, various therapeutically relevant receptors such as CD38, BCMA and SLAMF7 for multiple myeloma, a malignant disease of plasma cells, were analyzed and quantified on patient cells. Furthermore, the influence of TP53 and KRAS mutations on receptor expression levels was investigated using the multiple myeloma cell lines OPM2 and AMO1, showing clear differences in certain receptor quantities. 
Secondly, FLT3 which is a therapeutic target receptor for acute myeloid leukemia, was quantified and stoichiometrically analyzed on both cell lines and patient cells. In addition, cells that have developed resistance against midostaurin were compared with cells that still respond to this type I tyrosine-kinase-inhibitor for their FLT3 receptor expression and oligomerization state.
N2  - Plasmamembranrezeptoren sind die wohl wichtigsten und meist untersuchten Komponenten einer Zelle, da sie nicht nur die Kommunikation zwischen dem extrazellulären Bereich und den Zellen gewährleisten, sondern auch für die Regulierung des Zellzyklus und der Zellteilung zuständig sind. Dabei unterscheidet sich die Zusammensetzung der Oberflächenrezeptoren, das sogenannte „Rezeptom“, und ist charakteristisch für bestimme Zelltypen. Aufgrund ihrer Bedeutsamkeit sind Rezeptoren wichtige Zielstrukturen für Diagnose und Therapie in der Krebsmedizin, welche häufig bei verschiedensten Krebserkrankungen im Vergleich zu gesunden Zellen aberrante Expressionsmuster aufweisen. Diese Abweichungen können sich allerdings auch zu Nutze gemacht werden und zum Ziel verschiedener medizinischer Behandlungsmethoden, wie es bei der personalisierten Immuntherapie der Fall ist, werden. Zusätzlich hat der Fortschritt in der modernen Fluoreszenzmikroskopie durch sogenannte Einzelmolekültechniken, es auch erlaubt, eine noch nie dagewesene empfindliche Visualisierung und Quantifizierung von Molekülen mit einer räumlichen Auflösung von 10-20 nm zu erreichen, wodurch sowohl stöchiometrische Unterschiede, als auch Unterschiede in der Expressionsdichte detektiert werden können. 
In dieser Arbeit wurde die einzelmolekülsensitive Methode dSTORM genutzt, um die Rezeptorkomposition von verschiedenen Zelllinien aber auch von primären Patientenzellen mit zugrundeliegenden hämatologischen Erkrankungen zu quantifizieren. Schwerpunkte dieser Arbeit sind dabei die artefaktfreie Quantifizierung, stöchiometrische Analysen von Oligomerisierungszuständen, sowie die Kolokalisationsanalyse von Membranrezeptoren.
Grundvoraussetzung für die Quantifizierung von Rezeptoren sind dabei gut schaltbare Farbstoffe, sowie Label, welche die Zielstruktur spezifisch markieren ohne dabei Hintergrund durch unspezifische Bindung zu generieren. Um dies zu gewährleisten, kamen Antikörper mit einem vordefinierten DOL (degree of labeling; engl. für: Markierungsgrad) zum Einsatz, welche auch in der Durchflusszytometrie standardmäßig eingesetzt werden. Protokolle zur Hintergrundreduktion wurden dabei an Zelllinien etabliert, bevor Primärzellen von Krebspatienten analysiert wurden. Durch quantitative Analysen konnten dabei deutliche Expressionsunterschiede zwischen den Zelllinien und den Patientenzellen, aber auch zwischen den verschiedenen Patienten gezeigt werden.
Ein wichtiger Bestandteil dieser Arbeit ist die Fähigkeit, den Oligomerisierungszustand von Rezeptoren zu erkennen, was eine genauere Quantifizierung der Membran-rezeptordichten im Vergleich zur Durchflusszytometrie ermöglicht. Allerdings können diese Oligomerisierungszustände auch Informationen über die Aktivierung eines Rezeptors beinhalten, wie zum Beispiel von FLT3, einer Tyrosinkinase, welche zur Aktivierung dimerisieren muss. Hierfür wurden verschiedene bekannte Monomere und Dimere verglichen, um die typische Lokalisationsstatistik von vereinzelten gebundenen Antikörpern mit der von zwei oder mehr Antikörpern, welche nah beieinanderliegen, zu vergleichen. Durch weitere Etablierungsexperimente sowie Kolokalisationsanalysen konnte außerdem bewiesen werden, dass Antikörper trotz ihrer Größe auch an nah benachbarte Epitope binden können.
Diese Analyseverfahren wurden im weiteren Verlauf zur Quantifizierung und Visualisierung von Rezeptoren an zwei klinisch relevanten Beispielen angewendet. Zum einen wurden verschiedene therapeutisch relevante Rezeptoren wie z.B. CD38, BCMA und SLAMF7 für das Multiple Myelom, einer malignen Erkrankung von Plasmazellen, auf Patientenzellen analysiert und quantifiziert. Zusätzlich wurde der Einfluss von TP53 und KRAS Mutationen auf die Rezeptorexpressionen anhand der Multiplen Myelom Zelllinien OPM2 und AMO1 untersucht, bei denen eindeutige Unterschiede in der Rezeptorexpression detektiert wurden. 
Zum anderen wurde FLT3, welches ein therapeutischer Zielrezeptor für die akute myeloische Leukämie ist, sowohl auf Zelllinien als auch auf Patientenzellen quantifiziert und stöchiometrisch analysiert. Hierbei wurden auch Zellen welche eine Midostaurinresistenz entwickelt haben mit Zellen, welche auf diesen Typ I Tyrosinkinase Inhibitor ansprechen, auf ihre FLT3 Rezeptorexpression und ihren Oligomerisierungszustand verglichen.
KW  - Fluoreszenzmikroskopie
KW  - Membranrezeptor
KW  - Hochaufgelöste Fluoreszenzmikroskopie
KW  - Super-resolution microscopy
KW  - Membrane receptor
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-250048
ER  - 
TY  - JOUR
A1  - Duque, Laura
A1  - Poelman, Erik H.
A1  - Steffan-Dewenter, Ingolf
T1  - Plant age at the time of ozone exposure affects flowering patterns, biotic interactions and reproduction of wild mustard
JF  - Scientific Reports
N2  - Exposure of plants to environmental stressors can modify their metabolism, interactions with other organisms and reproductive success. Tropospheric ozone is a source of plant stress. We investigated how an acute exposure to ozone at different times of plant development affects reproductive performance, as well as the flowering patterns and the interactions with pollinators and herbivores, of wild mustard plants. The number of open flowers was higher on plants exposed to ozone at earlier ages than on the respective controls, while plants exposed at later ages showed a tendency for decreased number of open flowers. The changes in the number of flowers provided a good explanation for the ozone-induced effects on reproductive performance and on pollinator visitation. Ozone exposure at earlier ages also led to either earlier or extended flowering periods. Moreover, ozone tended to increase herbivore abundance, with responses depending on herbivore taxa and the plant age at the time of ozone exposure. These results suggest that the effects of ozone exposure depend on the developmental stage of the plant, affecting the flowering patterns in different directions, with consequences for pollination and reproduction of annual crops and wild species.
KW  - abiotic
KW  - environmental impact
KW  - plant ecology
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-265742
VL  - 11
IS  - 1
ER  - 
TY  - JOUR
A1  - Du, Baoguo
A1  - Ma, Yuhua
A1  - Yáñez‐Serrano, Ana Maria
A1  - Arab, Leila
A1  - Fasbender, Lukas
A1  - Alfarraj, Saleh
A1  - Albasher, Gadah
A1  - Hedrich, Rainer
A1  - White, Philip J.
A1  - Werner, Christiane
A1  - Rennenberg, Heinz
T1  - Physiological responses of date palm (Phoenix dactylifera) seedlings to seawater and flooding
JF  - New Phytologist
N2  - In their natural environment along coast lines, date palms are exposed to seawater inundation and, hence, combined stress by salinity and flooding.

To elucidate the consequences of this combined stress on foliar gas exchange and metabolite abundances in leaves and roots, date palm seedlings were exposed to flooding with seawater and its major constituents under controlled conditions.

Seawater flooding significantly reduced CO\(_{2}\) assimilation, transpiration and stomatal conductance, but did not affect isoprene emission. A similar effect was observed upon NaCl exposure. By contrast, flooding with distilled water or MgSO\(_{4}\) did not affect CO\(_{2}\)/H\(_{2}\)O gas exchange or stomatal conductance significantly, indicating that neither flooding itself, nor seawater sulfate, contributed greatly to stomatal closure. Seawater exposure increased Na and Cl contents in leaves and roots, but did not affect sulfate contents significantly. Metabolite analyses revealed reduced abundances of foliar compatible solutes, such as sugars and sugar alcohols, whereas nitrogen compounds accumulated in roots.

Reduced transpiration upon seawater exposure may contribute to controlling the movement of toxic ions to leaves and, therefore, can be seen as a mechanism to cope with salinity. The present results indicate that date palm seedlings are tolerant towards seawater exposure to some extent, and highly tolerant to flooding.
KW  - compatible solutes and other metabolites
KW  - date palm
KW  - flooding
KW  - salinity
KW  - shoot–root interaction
KW  - stomatal conductance
KW  - sulfate
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-228226
VL  - 229
IS  - 6
SP  - 3318
EP  - 3329
ER  - 
TY  - JOUR
A1  - Djuzenova, Cholpon S.
A1  - Fischer, Thomas
A1  - Katzer, Astrid
A1  - Sisario, Dmitri
A1  - Korsa, Tessa
A1  - Streussloff, Gudrun
A1  - Sukhorukov, Vladimir L.
A1  - Flentje, Michael
T1  - Opposite effects of the triple target (DNA-PK/PI3K/mTOR) inhibitor PI-103 on the radiation sensitivity of glioblastoma cell lines proficient and deficient in DNA-PKcs
JF  - BMC Cancer
N2  - Background: Radiotherapy is routinely used to combat glioblastoma (GBM). However, the treatment efficacy is often limited by the radioresistance of GBM cells.

Methods: Two GBM lines MO59K and MO59J, differing in intrinsic radiosensitivity and mutational status of DNA-PK and ATM, were analyzed regarding their response to DNA-PK/PI3K/mTOR inhibition by PI-103 in combination with radiation. To this end we assessed colony-forming ability, induction and repair of DNA damage by gamma H2AX and 53BP1, expression of marker proteins, including those belonging to NHEJ and HR repair pathways, degree of apoptosis, autophagy, and cell cycle alterations.

Results: We found that PI-103 radiosensitized MO59K cells but, surprisingly, it induced radiation resistance in MO59J cells. Treatment of MO59K cells with PI-103 lead to protraction of the DNA damage repair as compared to drug-free irradiated cells. In PI-103-treated and irradiated MO59J cells the foci numbers of both proteins was higher than in the drug-free samples, but a large portion of DNA damage was quickly repaired. Another cell line-specific difference includes diminished expression of p53 in MO59J cells, which was further reduced by PI-103. Additionally, PI-103-treated MO59K cells exhibited an increased expression of the apoptosis marker cleaved PARP and increased subG1 fraction. Moreover, irradiation induced a strong G2 arrest in MO59J cells (similar to 80% vs. similar to 50% in MO59K), which was, however, partially reduced in the presence of PI-103. In contrast, treatment with PI-103 increased the G2 fraction in irradiated MO59K cells.

Conclusions: The triple-target inhibitor PI-103 exerted radiosensitization on MO59K cells, but, unexpectedly, caused radioresistance in the MO59J line, lacking DNA-PK. The difference is most likely due to low expression of the DNA-PK substrate p53 in MO59J cells, which was further reduced by PI-103. This led to less apoptosis as compared to drug-free MO59J cells and enhanced survival via partially abolished cell-cycle arrest. The findings suggest that the lack of DNA-PK-dependent NHEJ in MO59J line might be compensated by DNA-PK independent DSB repair via a yet unknown mechanism.
KW  - DNA damage
KW  - DNA-PK
KW  - Histone gamma H2AX
KW  - p53
KW  - Radiation sensitivity
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-265826
VL  - 21
ER  - 
TY  - JOUR
A1  - Dapergola, Eleni
A1  - Menegazzi, Pamela
A1  - Raabe, Thomas
A1  - Hovhanyan, Anna
T1  - Light Stimuli and Circadian Clock Affect Neural Development in Drosophila melanogaster
JF  - Frontiers in Cell and Developmental Biology
N2  - Endogenous clocks enable organisms to adapt cellular processes, physiology, and behavior to daily variation in environmental conditions. Metabolic processes in cyanobacteria to humans are under the influence of the circadian clock, and dysregulation of the circadian clock causes metabolic disorders. In mouse and Drosophila, the circadian clock influences translation of factors involved in ribosome biogenesis and synchronizes protein synthesis. Notably, nutrition signals are mediated by the insulin receptor/target of rapamycin (InR/TOR) pathways to regulate cellular metabolism and growth. However, the role of the circadian clock in Drosophila brain development and the potential impact of clock impairment on neural circuit formation and function is less understood. Here we demonstrate that changes in light stimuli or disruption of the molecular circadian clock cause a defect in neural stem cell growth and proliferation. Moreover, we show that disturbed cell growth and proliferation are accompanied by reduced nucleolar size indicative of impaired ribosomal biogenesis. Further, we define that light and clock independently affect the InR/TOR growth regulatory pathway due to the effect on regulators of protein biosynthesis. Altogether, these data suggest that alterations in InR/TOR signaling induced by changes in light conditions or disruption of the molecular clock have an impact on growth and proliferation properties of neural stem cells in the developing Drosophila brain.
KW  - neuroblast growth
KW  - proliferation
KW  - circadian clock
KW  - light stimuli
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-231049
SN  - 2296-634X
VL  - 9
ER  - 
TY  - INPR
A1  - Dandekar, Thomas
T1  - Our universe may have started by Qubit decoherence
N2  - Our universe may have started by Qubit decoherence:

In quantum computers, qubits have all their states undefined during calculation and become defined as output (“decoherence”). We study the transition from an uncontrolled, chaotic quantum vacuum (“before”) to a clearly interacting “real world”. In such a cosmology, the Big Bang singularity is replaced by a condensation event of interacting strings. This triggers a crystallization process. This avoids inflation, not fitting current observations: increasing long-range interactions limit growth and crystal symmetries ensure the same laws of nature and basic symmetries over the whole crystal. Tiny mis-arrangements provide nuclei of superclusters and galaxies and crystal structure allows arrangement of dark (halo regions) and normal matter (galaxy nuclei) for galaxy formation. Crystals come and go: an evolutionary cosmology is explored: entropic forces from the quantum soup “outside” of the crystal try to dissolve it. This corresponds to dark energy and leads to a “big rip” in 70 Gigayears. Selection for best growth and condensation events over generations of crystals favors multiple self-organizing processes within the crystal including life or even conscious observers in our universe. Philosophically this theory shows harmony with nature and replaces absurd perspectives of current cosmology.
Independent of cosmology, we suggest that a “real world” (so our everyday macroscopic world) happens only inside a crystal. “Outside” there is wild quantum foam and superposition of all possibilities. In our crystallized world the vacuum no longer boils but is cooled down by the crystallization event, space-time exists and general relativity holds. Vacuum energy becomes 10**20 smaller, exactly as observed in our everyday world. We live in a “solid” state, within a crystal, the n quanta which build our world have all their different m states nicely separated. There are only nm states available for this local “multiverse”. The arrow of entropy for each edge of the crystal forms one fate, one world-line or clear development of our world, while layers of the crystal are different system states. Mathematical leads from loop quantum gravity (LQG) point to required interactions and potentials. Interaction potentials for strings or loop quanta of any dimension allow a solid, decoherent state of quanta challenging to calculate. However, if we introduce here the heuristic that any type of physical interaction of strings corresponds just to a type of calculation, there is already since 1898 the Hurwitz theorem showing that then only 1D, 2D, 4D and 8D (octonions) allow complex or hypercomplex number calculations. No other hypercomplex numbers and hence dimensions or symmetries are possible to allow calculations without yielding divisions by zero. However, the richest solution allowed by the Hurwitz theorem, octonions, is actually the observed symmetry of our universe, E8. Standard physics such as condensation, crystallization and magnetization but also solid-state physics and quantum computing allow us to show an initial mathematical treatment of our new theory by LQG to describe the cosmological state transformations by equations, and, most importantly, point out routes to parametrization of free parameters looking at testable phenomena, experiments and formulas that describe processes of crystallization, protein folding, magnetization, solid-state physics and quantum computing. This is presented here for LQG, for string theory it would be more elegant but was too demanding to be shown here.

Note: While my previous Opus server preprint “A new cosmology of a crystallization process (decoherence) from the surrounding quantum soup provides heuristics to unify general relativity and quantum physics by solid state physics” (https://doi.org/10.25972/OPUS-23076) deals with the same topics and basic formulas, this new version is improved: clearer in title, better introduction, more stringent in its mathematics and improved discussion of the implications including quantum computing, hints for parametrization and connections to LQG and other current cosmological efforts. 

This 5th of June 2021 version is again an OPUS preprint, but this will next be edited for Archives https://arxiv.org.
KW  - cosmology
KW  - quantum computing
KW  - loop quantum gravity
KW  - qubit
KW  - decoherence
KW  - crystallization
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-239181
ER  - 
TY  - RPRT
A1  - Dandekar, Thomas
T1  - A new cosmology of a crystallization process (decoherence) from the surrounding quantum soup provides heuristics to unify general relativity and quantum physics by solid state physics
T1  - Eine neue Kosmologie eines Kristallisationsprozesses  (Dekohärenz) vom umgebenden Quantenschaum bietet Heuristiken, um allgemeine Relativitätstheorie und Quantenphysik durch Festkörperphysik zu vereinen
N2  - We explore a cosmology where the Big Bang singularity is replaced by a condensation event of interacting strings. We study the transition from an uncontrolled, chaotic soup (“before”) to a clearly interacting “real world”. Cosmological inflation scenarios do not fit current observations and are avoided. Instead, long-range interactions inside this crystallization event limit growth and crystal symmetries ensure the same laws of nature and basic symmetries over our domain. Tiny mis-arrangements present nuclei of superclusters and galaxies and crystal structure leads to the arrangement of dark (halo regions) and normal matter (galaxy nuclei) so convenient for galaxy formation.  Crystals come and go, allowing an evolutionary cosmology where entropic forces from the quantum soup “outside” of the crystal try to dissolve it. These would correspond to dark energy and leads to a big rip scenario in 70 Gy. Preference of crystals with optimal growth and most condensation nuclei for the next generation of crystals may select for multiple self-organizing processes within the crystal,  explaining “fine-tuning” of the local “laws of nature” (the symmetry relations formed within the crystal, its “unit cell”) to be particular favorable for self-organizing processes including life or even conscious observers in our universe. 
Independent of cosmology, a crystallization event may explain quantum-decoherence in general: The fact, that in our macroscopic everyday world we only see one reality. This contrasts strongly with the quantum world where you have coherence, a superposition of all quantum states. We suggest that a “real world” (so our everyday macroscopic world) happens only in our domain, i.e. inside a crystal. “Outside” of our domain and our observable universe there is the quantum soup of boiling quantum foam and superposition of all possibilities. In our crystallized world the vacuum no longer boils but is cooled down by the crystallization event and hence is 10**20 smaller, exactly as observed in our everyday world. As we live in a “solid” state, within a crystal, the different quanta which build our world have all their different states nicely separated. This theory postulates there are only n quanta and m states available for them (there is no Everett-like ever splitting multiverse after each decision). In the solid state we live in, there is decoherence, the states are nicely separated. The arrow of entropy for each edge of the crystal forms one fate, one worldline or clear development of a world, while the layers of the crystal are different system states. 
Some mathematical leads from loop quantum gravity point to required interactions and potentials. A complete mathematical treatment of this unified theory is far too demanding currently. Interaction potentials for strings or membranes of any dimension allow a solid state of quanta, so allowing decoherence in our observed world are challenging to calculate. However, if we introduce here the heuristic that any type of physical interaction of strings corresponds just to a type of calculation, there is already since 1898 the Hurwitz theorem showing that then only 1D, 2D, 4D and 8D (octonions) allow complex or hypercomplex number calculations. No other hypercomplex numbers and hence dimensions or symmetries are possible to allow calculations without yielding divisions by zero. However, the richest solution allowed by the Hurwitz theorem, octonions, is actually the observed symmetry of our universe, E8.   
KW  - Kosmologie
KW  - cosmology
KW  - Hurwitz-Theorem
KW  - Quantenschleifen-Gravitation
KW  - Verschränkung
KW  - Qubits
KW  - Hurwitz-Theorem
KW  - loop quantum gravity
KW  - entanglement
KW  - Qubits
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-230769
ER  - 
TY  - THES
A1  - da Cruz Güerisoli, Irene Maria
T1  - Investigating the murine meiotic telomere complex TERB1-TERB2-MAJIN: spatial organization and evolutionary history
T1  - Untersuchung des murinen meiotischen Telomer-Komplex TERB1-TERB2-MAJIN: spatiale Organisation und Evolutionsgeschichte
N2  - Einess der faszinierenden Merkmale der meiotischen Prophase I sind die
hochkonservierten kräftigen Bewegungen homologer Chromosomen. Diese
Bewegungen sind entscheidend für den Erfolg von Schlüsselereignissen wie die
Ausrichtung, Paarung und Rekombination der homologen Chromosomen.
Mehrere bisher untersuchte Organismen, darunter Säugetiere, Würmer, Hefen
und Pflanzen, erreichen diese Bewegungen, indem sie die Chromosomenenden
an spezialisierten Stellen in der Kernhülle verankern. Diese Verankerung
erfordert Telomer-Adapterproteine, die bisher in der Spalthefe und der Maus
identifiziert wurden.
Die meiosespezifischen Telomer-Adapterproteine der Maus, TERB1, TERB2 und
MAJIN, sind an der Verankerung des ubiquitären Telomer-Shelterin-protein an
den LINC-Komplex beteiligt, mit einem analogen Mechanismus, wie er die
Spalthefe beschrieben wird. Obgleich die meiose-spezifischen TelomerAdapterproteine eine wesentliche Rolle spielen, ist der genaue Mechanismus
der Verankerung der Telomere an die Kernhülle sowie ihre evolutionäre
Geschichte bisher noch wenig verstanden. Das Hauptziel dieser Arbeit ist daher
die Untersuchung der Organisation des meiosespezifischen TelomerAdapterkomplexes TERB1-TERB2-MAJIN der Maus und dessen
Evolutionsgeschichte.
Im ersten Teil dieser Arbeit wurde die Organisation des TERB1-TERB2-MAJIN
Komplexes mittels hochauflösender Mikroskopie (SIM), an Mausspermatozyten
untersucht, sowie die Lokalisation in Bezug auf TRF1 des Telomer-ShelterinKomplexes und die telomerische DNA analysiert. In den Stadien Zygotän und
Pachytän zeigten die Fluoreszenzsignale eine starke Überlappung der Verteilung
der meiotischen Telomer-Komplex-Proteine, wobei die Organisation von TERB2
an den Chromosomenenden heterogener war als die von TERB1 und MAJIN.
Außerdem konnte die TRF1-Lokalisation an den Enden der Lateralelemente
(LEs) mit einer griffartigen Anordnung um die TERB1- und MAJIN-Signale im
Zygotän- und Pachytän-Stadium gezeigt werden. Interessanterweise erwies
sich die telomerische DNA als lateral verteilt und teilweise überlappend mit der
zentralen Verteilung der meiotischen Telomer-Komplex-Proteine an den Enden
der LEs. Die Kombination dieser Ergebnisse erlaubte die Beschreibung eines alternativen Modells der Verankerung der Telomer an die Kernhülle während
der meiotischen Prophase I.
Der zweite Teil dieser Arbeit analysiert die Evolutionsgeschichte der
Mausproteine von TERB1, TERB2 und MAJIN. Die fehlende Übereinstimmung
zwischen den Meiose-spezifische Telomer-Adapteproteinen der Maus und der
Spalthefe hat die Frage nach dem evolutionsbedingten Ursprung dieses
spezifischen Komplexes aufgeworfen. Um vermeintliche Orthologen der
Mausproteinevon TERB1, TERB2 und MAJIN über Metazoen hinweg zu
identifizieren, wurden computergestützte Verfahren und phylogenetische
Analysen durchgeführt. Darüber hinaus wurden Expressionsstudien
implementiert, um ihre potenzielle Funktion während der Meiose zu testen. Die
Analysen haben ergeben, dass der Meiose-spezifische Telomer-Komplex der
Maus sehr alt ist, da er bereits in den Eumetazoen entstand, was auf einen
einzigen Ursprung hindeutet. Das Fehlen jeglicher Homologen des
meiosespezifischen Telomerkomplexes in Nematoden und die einigen wenigen
in Arthropoden nachgewiesenen Kandidaten, deuten darauf hin, dass die
Telomer-Adapterproteine in diesen Abstammungslinien verloren/ersetzt oder
stark diversifiziert worden sind. Bemerkenswerterweise zeigten
Proteindomänen von TERB1, TERB2 und MAJIN, die an der Bildung des
Komplexes sowie an der Interaktion mit dem Telomer-Shelterin-Protein und den
LINC-Komplexen beteiligt sind, eine hohe Sequenzähnlichkeit über alle Kladen
hinweg. Abschließend lieferte die Genexpression im Nesseltier Hydra vulgaris
den Beweis, dass der TERB1-TERB2-MAJIN-Komplex selektiv in der Keimbahn
exprimiert wird, was auf die Konservierung meiotischer Funktionen über die
gesamte Metazoen-Evolution hinweg hindeutet.
Zusammenfassend bietet diese Arbeit bedeutende neue Erkenntnisse
hinsichtlich des Meiose-spezifischen Telomer-Adapterkomplex, seines
Mechanismus zur Verankerung der Telomer an die Kernhülle und die
Entschlüsselung seines Ursprungs in den Metazoen.
N2  - One of the fascinating features of meiotic prophase I, is the highly conserved
vigorous movements of homologous chromosomes. These movements are
critical for the success of essential events as homologs alignment, synapsis and
recombination. Several organisms studied so far, including mammals, worms,
yeast and plants achieve these movements by anchoring the chromosome ends
to specialized sites in the nuclear envelope (NE). This attachment requires
telomere adaptor proteins which have to date been identified in fission yeast
and mice.
The mouse meiosis-specific telomere adaptor proteins TERB1, TERB2, and
MAJIN are involved in the attachment of ubiquitous shelterin telomere to the
LINC complex, in an analogous mechanism as those described in fission yeast.
Despite the essential role of meiosis-specific telomere adaptor proteins, the
precise mechanism of anchorage of telomeres to the nuclear envelope, as well
as their evolutionary history, are still not well understood. Therefore, the main
aim of this thesis is to investigate the organization of the mouse meiosis-specific
telomere adaptor complex TERB1-TERB2-MAJIN and its evolutionary history.
In the first part of this thesis high-resolution Structured Illumination Microscopy
(SIM), indirect immunofluorescence and Telo-FISH on mouse spermatocytes
were used to determine precisely how the telomere complex proteins are
localized with relation to the shelterin telomeric TRF1 protein and telomeric
DNA. During zygotene and pachytene stages staining patterns revealed
extensively overlapping of meiotic telomere complex proteins distributions in
which TERB2 organization is more heterogeneous than TERB1 and MAJIN at
the chromosome ends. Further, TRF1 localization was shown at the side of
lateral elements (LEs) ends with grasp-like distribution surrounding the TERB1
and MAJIN signals in zygotene and pachytene stages. Interestingly, telomeric
DNA was shown to be laterally distributed and partially overlapping with the
more central distribution displayed by meiotic telomere complex proteins of LEs
ends. The combination of these results allowed to describe an alternative model
of the telomere attachment to the NE during meiotic prophase I. The second part of this thesis, analyses mouse TERB1, TERB2, and MAJIN
evolutionary history. The lack of similarity between mouse and fission yeast
meiotic-specific telomere adaptor proteins has raised the question about the
origin of this specific complex through evolution. To identify mouse TERB1,
TERB2, and MAJIN putative orthologues, computational approaches and
phylogenetic analyses were performed. Besides, to test their potential function
during meiosis, expression studies were conducted. From these analyses, it was
revealed that mouse meiosis-specific telomere complex is ancient, as it
originated as early as eumetazoans pointing to a single origin. The absence of
any homologs in Nematoda and only a few candidates detected in Arthropoda
for meiosis-specific telomere complex, seemed, that these proteins have been
lost/replaced or highly diversified in these lineages. Remarkably, TERB1, TERB2,
and MAJIN protein domains involved in the formation of the complex as well as
those required for the interaction with the telomere shelterin protein and the
LINC complexes revealed high sequence similarity across all clades. Finally,
gene expression in the cnidarian Hydra Vulgaris provided evidence that the
TERB1-TERB2-MAJIN complex is selectively expressed in the germline
suggesting conservation of meiotic functions across metazoan evolution.
In summary, this thesis provides significant insights into the meiosis-specific
telomere complex mechanism to engage telomeres to the nuclear envelope and
the elucidation of its origin in metazoans.
KW  - meiosis
KW  - chromosomes telomere-led movement
KW  - TERB1-TERB2-MAJIN
KW  - SIM
KW  - Evolution
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-210562
ER  - 
TY  - THES
A1  - Cruz Garcia, Yiliam
T1  - Interactome of the β2b subunit of L-type voltage-gated calcium channels in cardiomyocytes
T1  - Interaktom der β2b-Untereinheit von spannungsgesteuerten L-Typ Kalziumkanälen in Kardiomyozyten
N2  - L-type voltage-gated calcium channels (LTCC) are heteromultimeric membrane proteins that allow Ca2+ entry into the cell upon plasma membrane depolarization. The β subunit of voltage-dependent calcium channels (Cavβ) binds to the α-interaction domain in the pore-forming α1 subunit and regulates the trafficking and biophysical properties of these channels. Of the four Cavβ isoforms, Cavβ2 is predominantly expressed in cardiomyocytes. This subunit associates with diverse proteins besides LTCC, but the molecular composition of the Cavβ2 nanoenvironments in cardiomyocytes is yet unresolved. Here, we used a protein-labeling technique in living cells based on an engineered ascorbate peroxidase 2 (APEX2). In this strategy, Cavβ2b was fused to APEX2 and expressed in adult rat cardiomyocytes using an adenovirus system. Nearby proteins covalently labeled with biotin-phenol were purified using streptavidin-coated beads and identified by mass spectrometry (MS). Analysis of the in situ APEX2-based biotin labeling by MS revealed 61 proteins located in the nanoenvironments of Cavβ2b, with a high specificity and consistency in all the replicates. These proteins are involved in diverse cellular functions such as cellular trafficking, sarcomere organization and excitation-contraction coupling. Among these proteins, we demonstrated an interaction between the ryanodine receptor 2 (RyR2) and Cavβ2b, probably coupling LTCC and the RyR2 into a supramolecular complex at the dyads. This interaction is mediated by the Src homology 3 (SH3) domain of Cavβ2b and is necessary for an effective pacing frequency‐dependent increase in Ca2+-induced Ca2+ release in cardiomyocytes.
N2  - Die spannungabhängigen L-Typ Kalziumkanäle (LTCC) sind heteromultimere Membranproteine, die den Einstrom von Kalzium (Ca2+) in die Zelle nach Depolarisation der Plasmamembran vermitteln. Die β-Untereinheit von spannungsabhängigen Kalziumkanälen (Cavβ2) bindet an die α-Interaktionsdomäne in der porenformenden α1-Untereinheit und reguliert den Transport und die biophysikalischen Eigenschaften dieser Kanäle. Es gibt vier Isoformen der β-Untereinheiten, die als Cavβ bezeichnet werden, von denen die Cavβ2 Isoform hauptsächlich in Kardiomyozyten exprimiert wird. Diese Untereinheit assoziiert neben dem LTCC mit einer Vielzahl an weiteren Proteinen. Die molekulare Zusammensetzung der Cavβ2 Nanoumgebung, bzw. die Interaktionspartner der Cavβ2 Untereinheit, in Kardiomyozyten ist jedoch immer noch nicht bekannt. In dieser Arbeit verwendeten wir eine Proteinmarkierungstechnik in lebenden Zellen auf Basis einer modifizierten Ascorbatperoxidase 2 (APEX2) um die Cavβ2 Nanoumgebung genauer zu charakterisieren. Dafür wurde Cavβ2b mit APEX2 fusioniert und adenoviral vermittelt in adulten Ratten-Kardiomyozyten exprimiert. APEX2 katalysiert die kovalente Markierung von möglichen Interaktionspartnern in unmittelbarer Nähe der APEX markierten Cavβ2 Untereinheit mit Biotin-Phenol. Markierte Proteine wurden mit Streptavidin beschichteten Beads isoliert und mittels Massenspektrometrie (MS) identifiziert. Die Analyse der MS ergab 61 Proteine in der Nanoumgebung von Cavβ2b. Die Analyse zeichnete sich durch eine hohe Spezifität und Beständigkeit in allen Replikaten aus. Diese identifizierten Proteine haben diverse Funktionen wie zelluläre Transportsteuerung, den Aufbau von Sarkomeren und elektromechanischen Kopplung. Eines dieser Proteinen war der Ryanodinrezeptor 2 (RyR2) und damit konnten wir eine Interaktion von RyR2 und Cavβ2b nachweisen, welche wahrscheinlich die LTCCs und RyR2 zu einem supramolekularen Komplex in den Dyaden verbindet. Diese Interaktion wird durch die Src homology 3 (SH3) Domäne von Cavβ2b vermittelt und ist für einen effektive Stimulationsfrequenz-abhängigen Anstieg der Calcium-induzierten Calciumfreisetzung in Kardiomyozyten notwendig.
KW  - Calciumkanal
KW  - Herzmuskelzelle
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-208579
ER  - 
TY  - JOUR
A1  - Colizzi, Francesca Sara
A1  - Beer, Katharina
A1  - Cuti, Paolo
A1  - Deppisch, Peter
A1  - Martínez Torres, David
A1  - Yoshii, Taishi
A1  - Helfrich-Förster, Charlotte
T1  - Antibodies Against the Clock Proteins Period and Cryptochrome Reveal the Neuronal Organization of the Circadian Clock in the Pea Aphid
JF  - Frontiers in Physiology
N2  - Circadian clocks prepare the organism to cyclic environmental changes in light, temperature, or food availability. Here, we characterized the master clock in the brain of a strongly photoperiodic insect, the aphid Acyrthosiphon pisum, immunohistochemically with antibodies against A. pisum Period (PER), Drosophila melanogaster Cryptochrome (CRY1), and crab Pigment-Dispersing Hormone (PDH). The latter antibody detects all so far known PDHs and PDFs (Pigment-Dispersing Factors), which play a dominant role in the circadian system of many arthropods. We found that, under long days, PER and CRY are expressed in a rhythmic manner in three regions of the brain: the dorsal and lateral protocerebrum and the lamina. No staining was detected with anti-PDH, suggesting that aphids lack PDF. All the CRY1-positive cells co-expressed PER and showed daily PER/CRY1 oscillations of high amplitude, while the PER oscillations of the CRY1-negative PER neurons were of considerable lower amplitude. The CRY1 oscillations were highly synchronous in all neurons, suggesting that aphid CRY1, similarly to Drosophila CRY1, is light sensitive and its oscillations are synchronized by light-dark cycles. Nevertheless, in contrast to Drosophila CRY1, aphid CRY1 was not degraded by light, but steadily increased during the day and decreased during the night. PER was always located in the nuclei of the clock neurons, while CRY was predominantly cytoplasmic and revealed the projections of the PER/CRY1-positive neurons. We traced the PER/CRY1-positive neurons through the aphid protocerebrum discovering striking similarities with the circadian clock of D. melanogaster: The CRY1 fibers innervate the dorsal and lateral protocerebrum and putatively connect the different PER-positive neurons with each other. They also run toward the pars intercerebralis, which controls hormone release via the neurohemal organ, the corpora cardiaca. In contrast to Drosophila, the CRY1-positive fibers additionally travel directly toward the corpora cardiaca and the close-by endocrine gland, corpora allata. This suggests a direct link between the circadian clock and the photoperiodic control of hormone release that can be studied in the future.
KW  - aphids
KW  - circadian clock
KW  - cryptochrome
KW  - period
KW  - hemiptera
KW  - insects
KW  - photoperiodism
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-242909
SN  - 1664-042X
VL  - 12
ER  - 
TY  - THES
A1  - Claßen, Alexandra
T1  - The ERK-cascade in the pathophysiology of cardiac hypertrophy
T1  - Die ERK-Kaskade in der Pathophysiologie der Herzhypertrophie
N2  - ERK1/2 are known key players in the pathophysiology of heart failure, but the members of the ERK cascade, in particular Raf1, can also protect the heart from cell death and ischemic injury. An additional autophosphorylation (ERK1 at Thr208, ERK2 at Thr188) empowers ERK1/2 translocation to the nucleus and phosphorylation of nuclear targets which take part in the development of cardiac hypertrophy. Thereby, targeting this additional phosphorylation is a promising pharmacological approach. 
In this thesis, an in silico model of ERK cascade in the cardiomyocyte is introduced. The model is a semi-quantitive model and its behavior was tested with different softwares (SQUAD and CellNetAnalyzer). Different phosphorylation states of ERK1/2 as well as different stimuli can be reproduced. The different types of stimuli include hypertrophic as well as non-hypertrophic stimuli. With the introduced in-silico model time courses and synergistic as well as antagonistic receptor stimuli combinations can be predicted. The simulated time courses were experimentally validated. SQUAD was mainly used to make predictions about time courses and thresholds, whereas CNA was used to analyze steady states and feedback loops. 
Furthermore, new targets of ERK1/2 which partially contribute, also in the formation of cardiac hypertrophy, were identified and the most promising of them were illuminated. Important further targets are Caspase 8, GAB2, Mxi-2, SMAD2, FHL2 and SPIN90. 
Cardiomyocyte gene expression data sets were analyzed to verify involved components and to find further significantly altered genes after induced hypertrophy with TAC (transverse aortic constriction). Changes in the ultrastructure of the cardiomyocyte are the final result of induced hypertrophy.
N2  - ERK1/2 sind bekannte Schlüsselfiguren bei der Entstehung der Herzinsuffizienz. Weitere Komponenten der ERK-Kaskade, insbesondere Raf1, können das Herz jedoch vor Zelltod und ischämischem Schaden schützen. Eine zusätzliche Autophosphorylierung von ERK1 an Thr208 bzw. von ERK2 an Thr188 ermöglicht ERK1/2 die Translokation zum Zellkern und  befähigt ERK dort zur Phosphorylierung von nukleosolischen  Zielproteinen,  welche eine Herzmuskelhypertrophie auslösen. Daher erscheint diese zusätzliche Autophosphorylierung als eine vielversprechende pharmakologische Zielstruktur.
In dieser Arbeit wird ein in-silico Modell der ERK-Kaskade im Kardiomyozyten präsentiert. Das Modell ist ein semi-quantitatives Modell und wurde mit den Programmen SQUAD und CellNetAnalyzer getestet. Verschiedene Phosphorylierungs-Zustände von ERK1/2 als auch verschiedene Stimuli (hypertrophe als auch nicht-hypertrophe) können mit dem Modell reproduziert werden. Mit dem präsentierten in-silico Modell können sowohl zeitliche Abläufe als auch synergistische und antagonistische Effekte vorhergesagt werden. Die simulierten zeitlichen Abläufe wurden durch in-vitro Experimente validiert. SQUAD wurde hauptsächlich für die Modellierung von  zeitlichen Abläufen und Schwellenwerte genutzt, wohingegen CellNetAnalyzer vor allen Dingen zur Analyse von Fließgleichgewichten und Rückkopplungs-Mechanismen genutzt wurde. 
Darüberhinaus wurden Zielstrukturen von ERK1/2, welche zusätzlich an der Entstehung der Herzhypertrophie mitwirken, identifiziert. Diese umfassen unter anderem Caspase 8, GAB2, Mxi-2, SMAD2, FHL2 und SPIN90.
Gen-Expressions-Datensätze von Kardiomyozyten nach TAC (transverse aortic constriction) wurden analysiert. Diese wurden mit den im Model vorhandenen Strukturen verglichen und signifikant veränderte Expressionslevel wurden identifiziert. Veränderungen der Ultrastruktur des Kardiomyozyten sind das Ergebnis der induzierten Hypertrophie.
KW  - Herzhypertrophie
KW  - Systembiologie
KW  - ERK-cascade
KW  - ERK-Kaskade
KW  - cardiac hypertrophy
KW  - in-silico model
KW  - In-silico Modell
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-229664
ER  - 
TY  - JOUR
A1  - Chumduri, Cindrilla
A1  - Turco, Margherita Y.
T1  - Organoids of the female reproductive tract
JF  - Journal of Molecular Medicine
N2  - Healthy functioning of the female reproductive tract (FRT) depends on balanced and dynamic regulation by hormones during the menstrual cycle, pregnancy and childbirth. The mucosal epithelial lining of different regions of the FRT—ovaries, fallopian tubes, uterus, cervix and vagina—facilitates the selective transport of gametes and successful transfer of the zygote to the uterus where it implants and pregnancy takes place. It also prevents pathogen entry. Recent developments in three-dimensional (3D) organoid systems from the FRT now provide crucial experimental models that recapitulate the cellular heterogeneity and physiological, anatomical and functional properties of the organ in vitro. In this review, we summarise the state of the art on organoids generated from different regions of the FRT. We discuss the potential applications of these powerful in vitro models to study normal physiology, fertility, infections, diseases, drug discovery and personalised medicine.
KW  - female reproductive tract
KW  - organoids
KW  - reproductive health
KW  - pregnancy
KW  - fertility
KW  - infection
KW  - cancers
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-328374
VL  - 99
IS  - 4
ER  - 
TY  - JOUR
A1  - Castañeda Londono, Paula Andrea
A1  - Banholzer, Nicole
A1  - Bannermann, Bridget
A1  - Kramer, Susanne
T1  - Is mRNA decapping activity of ApaH like phosphatases (ALPH’s) the reason for the loss of cytoplasmic ALPH’s in all eukaryotes but Kinetoplastida?
JF  - BMC Ecology and Evolution
N2  - Background: ApaH like phosphatases (ALPHs) originate from the bacterial ApaH protein and are present in eukaryotes of all eukaryotic super-groups; still, only two proteins have been functionally characterised. One is ALPH1 from the Kinetoplastid Trypanosoma brucei that we recently found to be the mRNA decapping enzyme of the parasite. mRNA decapping by ALPHs is unprecedented in eukaryotes, which usually use nudix hydrolases, but the bacterial ancestor protein ApaH was recently found to decap non-conventional caps of bacterial mRNAs. These findings prompted us to explore whether mRNA decapping by ALPHs is restricted to Kinetoplastida or more widespread among eukaryotes.

Results: We screened 824 eukaryotic proteomes with a newly developed Python-based algorithm for the presence of ALPHs and used the data to refine phylogenetic distribution, conserved features, additional domains and predicted intracellular localisation of ALPHs. We found that most eukaryotes have either no ALPH (500/824) or very short ALPHs, consisting almost exclusively of the catalytic domain. These ALPHs had mostly predicted non-cytoplasmic localisations, often supported by the presence of transmembrane helices and signal peptides and in two cases (one in this study) by experimental data. The only exceptions were ALPH1 homologues from Kinetoplastida, that all have unique C-terminal and mostly unique N-terminal extension, and at least the T. brucei enzyme localises to the cytoplasm. Surprisingly, despite of these non-cytoplasmic localisations, ALPHs from all eukaryotic super-groups had in vitro mRNA decapping activity.

Conclusions: ALPH was present in the last common ancestor of eukaryotes, but most eukaryotes have either lost the enzyme since, or use it exclusively outside the cytoplasm in organelles in a version consisting of the catalytic domain only. While our data provide no evidence for the presence of further mRNA decapping enzymes among eukaryotic ALPHs, the broad substrate range of ALPHs that includes mRNA caps provides an explanation for the selection against the presence of a cytoplasmic ALPH protein as a mean to protect mRNAs from unregulated degradation. Kinetoplastida succeeded to exploit ALPH as their mRNA decapping enzyme, likely using the Kinetoplastida-unique N- and C-terminal extensions for regulation.
KW  - ApaH like phosphatase
KW  - ApaH
KW  - ALPH
KW  - Trypanosoma brucei
KW  - mRNA decapping
KW  - m7G cap
KW  - mRNA cap
KW  - ALPH1
KW  - Kinetoplastida
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-261180
VL  - 21
ER  - 
TY  - JOUR
A1  - Bässler, Claus
A1  - Brandl, Roland
A1  - Müller, Jörg
A1  - Krah, Franz S.
A1  - Reinelt, Arthur
A1  - Halbwachs, Hans
T1  - Global analysis reveals an environmentally driven latitudinal pattern in mushroom size across fungal species
JF  - Ecology Letters
N2  - Although macroecology is a well‐established field, much remains to be learned about the large‐scale variation of fungal traits. We conducted a global analysis of mean fruit body size of 59 geographical regions worldwide, comprising 5340 fungal species exploring the response of fruit body size to latitude, resource availability and temperature. The results showed a hump‐shaped relationship between mean fruit body size and distance to the equator. Areas with large fruit bodies were characterised by a high seasonality and an intermediate mean temperature. The responses of mutualistic species and saprotrophs were similar. These findings support the resource availability hypothesis, predicting large fruit bodies due to a seasonal resource surplus, and the thermoregulation hypothesis, according to which small fruit bodies offer a strategy to avoid heat and cold stress and therefore occur at temperature extremes. Fruit body size may thus be an adaptive trait driving the large‐scale distribution of fungal species.
KW  - Fungal traits
KW  - global biomes
KW  - latitudinal gradient
KW  - mean fruit body size
KW  - saprobic and ectomycorrhizal basidiomycetes
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-239808
VL  - 24
IS  - 4
SP  - 658
EP  - 667
ER  - 
TY  - JOUR
A1  - Broster Reix, Christine E.
A1  - Florimond, Célia
A1  - Cayrel, Anne
A1  - Mailhé, Amélie
A1  - Agnero-Rigot, Corentin
A1  - Landrein, Nicolas
A1  - Dacheux, Denis
A1  - Havlicek, Katharina
A1  - Bonhivers, Mélanie
A1  - Morriswood, Brooke
A1  - Robinson, Derrick R.
T1  - Bhalin, an essential cytoskeleton-associated protein of Trypanosoma brucei linking TbBILBO1 of the flagellar pocket collar with the hook complex
JF  - Microorganisms
N2  - Background: In most trypanosomes, endo and exocytosis only occur at a unique organelle called the flagellar pocket (FP) and the flagellum exits the cell via the FP. Investigations of essential cytoskeleton-associated structures located at this site have revealed a number of essential proteins. The protein TbBILBO1 is located at the neck of the FP in a structure called the flagellar pocket collar (FPC) and is essential for biogenesis of the FPC and parasite survival. TbMORN1 is a protein that is present on a closely linked structure called the hook complex (HC) and is located anterior to and overlapping the collar. TbMORN1 is essential in the bloodstream form of T. brucei. We now describe the location and function of BHALIN, an essential, new FPC-HC protein. Methodology/Principal Findings: Here, we show that a newly characterised protein, BHALIN (BILBO1 Hook Associated LINker protein), is localised to both the FPC and HC and has a TbBILBO1 binding domain, which was confirmed in vitro. Knockdown of BHALIN by RNAi in the bloodstream form parasites led to cell death, indicating an essential role in cell viability. Conclusions/Significance: Our results demonstrate the essential role of a newly characterised hook complex protein, BHALIN, that influences flagellar pocket organisation and function in bloodstream form T. brucei parasites.
KW  - trypanosoma
KW  - flagellar pocket
KW  - hook complex
KW  - endocytosis
KW  - cytoskeleton
KW  - protozoan
KW  - flagellar pocket collar
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-250301
SN  - 2076-2607
VL  - 9
IS  - 11
ER  - 
TY  - JOUR
A1  - Britz, Sebastian
A1  - Markert, Sebastian Matthias
A1  - Witvliet, Daniel
A1  - Steyer, Anna Maria
A1  - Tröger, Sarah
A1  - Mulcahy, Ben
A1  - Kollmannsberger, Philip
A1  - Schwab, Yannick
A1  - Zhen, Mei
A1  - Stigloher, Christian
T1  - Structural Analysis of the Caenorhabditis elegans Dauer Larval Anterior Sensilla by Focused Ion Beam-Scanning Electron Microscopy
JF  - Frontiers in Neuroanatomy
N2  - At the end of the first larval stage, the nematode Caenorhabditis elegans developing in harsh environmental conditions is able to choose an alternative developmental path called the dauer diapause. Dauer larvae exhibit different physiology and behaviors from non-dauer larvae. Using focused ion beam-scanning electron microscopy (FIB-SEM), we volumetrically reconstructed the anterior sensory apparatus of C. elegans dauer larvae with unprecedented precision. We provide a detailed description of some neurons, focusing on structural details that were unknown or unresolved by previously published studies. They include the following: (1) dauer-specific branches of the IL2 sensory neurons project into the periphery of anterior sensilla and motor or putative sensory neurons at the sub-lateral cords; (2) ciliated endings of URX sensory neurons are supported by both ILso and AMso socket cells near the amphid openings; (3) variability in amphid sensory dendrites among dauers; and (4) somatic RIP interneurons maintain their projection into the pharyngeal nervous system. Our results support the notion that dauer larvae structurally expand their sensory system to facilitate searching for more favorable environments.
KW  - FIB-SEM
KW  - 3D reconstruction
KW  - neuroanatomy
KW  - IL2 branching
KW  - amphids
KW  - Caenorhabditis elegans (C. elegans)
KW  - dauer
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-249622
SN  - 1662-5129
VL  - 15
ER  - 
TY  - JOUR
A1  - Brenzinger, Kristof
A1  - Costa, Ohana Y. A.
A1  - Ho, Adrian
A1  - Koorneef, Guusje
A1  - Robroek, Bjorn
A1  - Molenaar, Douwe
A1  - Korthals, Gerard
A1  - Bodelier, Paul L. E.
T1  - Steering microbiomes by organic amendments towards climate-smart agricultural soils
JF  - Biology and Fertility of Soils
N2  - We steered the soil microbiome via applications of organic residues (mix of cover crop residues, sewage sludge + compost, and digestate + compost) to enhance multiple ecosystem services in line with climate-smart agriculture. Our result highlights the potential to reduce greenhouse gases (GHG) emissions from agricultural soils by the application of specific organic amendments (especially digestate + compost). Unexpectedly, also the addition of mineral fertilizer in our mesocosms led to similar combined GHG emissions than one of the specific organic amendments. However, the application of organic amendments has the potential to increase soil C, which is not the case when using mineral fertilizer. While GHG emissions from cover crop residues were significantly higher compared to mineral fertilizer and the other organic amendments, crop growth was promoted. Furthermore, all organic amendments induced a shift in the diversity and abundances of key microbial groups. We show that organic amendments have the potential to not only lower GHG emissions by modifying the microbial community abundance and composition, but also favour crop growth-promoting microorganisms. This modulation of the microbial community by organic amendments bears the potential to turn soils into more climate-smart soils in comparison to the more conventional use of mineral fertilizers.
KW  - greenhouse gases
KW  - agricultural soils
KW  - organic amendment
KW  - flux measurements
KW  - microbial community abundance and compositions
KW  - plant growth
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-326930
VL  - 57
IS  - 8
ER  -