TY - JOUR A1 - Briese, Michael A1 - Saal, Lena A1 - Appenzeller, Silke A1 - Moradi, Mehri A1 - Baluapuri, Apoorva A1 - Sendtner, Michael T1 - Whole transcriptome profiling reveals the RNA content of motor axons JF - Nucleic Acids Research N2 - Most RNAs within polarized cells such as neurons are sorted subcellularly in a coordinated manner. Despite advances in the development of methods for profiling polyadenylated RNAs from small amounts of input RNA, techniques for profiling coding and non-coding RNAs simultaneously are not well established. Here, we optimized a transcriptome profiling method based on double-random priming and applied it to serially diluted total RNA down to 10 pg. Read counts of expressed genes were robustly correlated between replicates, indicating that the method is both reproducible and scalable. Our transcriptome profiling method detected both coding and long non-coding RNAs sized >300 bases. Compared to total RNAseq using a conventional approach our protocol detected 70% more genes due to reduced capture of ribosomal RNAs. We used our method to analyze the RNA composition of compartmentalized motoneurons. The somatodendritic compartment was enriched for transcripts with post-synaptic functions as well as for certain nuclear non-coding RNAs such as 7SK. In axons, transcripts related to translation were enriched including the cytoplasmic non-coding RNA 7SL. Our profiling method can be applied to a wide range of investigations including perturbations of subcellular transcriptomes in neurodegenerative diseases and investigations of microdissected tissue samples such as anatomically defined fiber tracts. KW - RNA KW - motor axons Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-126800 ER - TY - JOUR A1 - Förster, Frank A1 - Beisser, Daniela A1 - Grohme, Markus A. A1 - Liang, Chunguang A1 - Mali, Brahim A1 - Siegl, Alexander Matthias A1 - Engelmann, Julia C. A1 - Shkumatov, Alexander V. A1 - Schokraie, Elham A1 - Müller, Tobias A1 - Schnölzer, Martina A1 - Schill, Ralph O. A1 - Frohme, Marcus A1 - Dandekar, Thomas T1 - Transcriptome analysis in tardigrade species reveals specific molecular pathways for stress adaptations JF - Bioinformatics and biology insights N2 - Tardigrades have unique stress-adaptations that allow them to survive extremes of cold, heat, radiation and vacuum. To study this, encoded protein clusters and pathways from an ongoing transcriptome study on the tardigrade \(Milnesium\) \(tardigradum\) were analyzed using bioinformatics tools and compared to expressed sequence tags (ESTs) from \(Hypsibius\) \(dujardini\), revealing major pathways involved in resistance against extreme environmental conditions. ESTs are available on the Tardigrade Workbench along with software and databank updates. Our analysis reveals that RNA stability motifs for \(M.\) \(tardigradum\) are different from typical motifs known from higher animals. \(M.\) \(tardigradum\) and \(H.\) \(dujardini\) protein clusters and conserved domains imply metabolic storage pathways for glycogen, glycolipids and specific secondary metabolism as well as stress response pathways (including heat shock proteins, bmh2, and specific repair pathways). Redox-, DNA-, stress- and protein protection pathways complement specific repair capabilities to achieve the strong robustness of \(M.\) \(tardigradum\). These pathways are partly conserved in other animals and their manipulation could boost stress adaptation even in human cells. However, the unique combination of resistance and repair pathways make tardigrades and \(M.\) \(tardigradum\) in particular so highly stress resistant. KW - RNA KW - expressed sequence tag KW - cluster KW - protein familiy KW - adaption KW - tardigrada KW - transcriptome Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-123089 N1 - This is an open access article. Unrestricted non-commercial use is permitted provided the original work is properly cited. VL - 6 ER - TY - JOUR A1 - Kleiber, Nicole A1 - Lemus-Diaz, Nicolas A1 - Stiller, Carina A1 - Heinrichs, Marleen A1 - Mong-Quyen Mai, Mandy A1 - Hackert, Philipp A1 - Richter-Dennerlein, Ricarda A1 - Höbartner, Claudia A1 - Bohnsack, Katherine E. A1 - Bohnsack, Markus T. T1 - The RNA methyltransferase METTL8 installs m\(^3\)C\(_{32}\) in mitochondrial tRNAs\(^{Thr/Ser(UCN)}\) to optimise tRNA structure and mitochondrial translation JF - Nature Communication N2 - Modified nucleotides in tRNAs are important determinants of folding, structure and function. Here we identify METTL8 as a mitochondrial matrix protein and active RNA methyltransferase responsible for installing m\(^3\)C\(_{32}\) in the human mitochondrial (mt-)tRNA\(^{Thr}\) and mt-tRNA\(^{Ser(UCN)}\). METTL8 crosslinks to the anticodon stem loop (ASL) of many mt-tRNAs in cells, raising the question of how methylation target specificity is achieved. Dissection of mttRNA recognition elements revealed U\(_{34}\)G\(_{35}\) and t\(^6\)A\(_{37}\)/(ms\(^2\))i\(^6\)A\(_{37}\), present concomitantly only in the ASLs of the two substrate mt-tRNAs, as key determinants for METTL8-mediated methylation of C\(_{32}\). Several lines of evidence demonstrate the influence of U\(_{34}\), G\(_{35}\), and the m\(^3\)C\(_{32}\) and t\(^6\)A\(_{37}\)/(ms\(^2\))i\(^6\)A\(_{37}\) modifications in mt-tRNA\(^{Thr/Ser(UCN)}\) on the structure of these mt-tRNAs. Although mt-tRNA\(^{Thr/Ser(UCN)}\) lacking METTL8-mediated m\(^3\)C\(_{32}\) are efficiently aminoacylated and associate with mitochondrial ribosomes, mitochondrial translation is mildly impaired by lack of METTL8. Together these results define the cellular targets of METTL8 and shed new light on the role of m\(^3\)C\(_{32}\) within mt-tRNAs. KW - Modified Nucleotides in tRNAs KW - METTL8 KW - Mitochondrial Matrix Protein KW - RNA Methyltransferase KW - RNA KW - Enzymes KW - Organelles Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-254592 VL - 13 ER - TY - JOUR A1 - Heidrich, Nadja A1 - Bauriedl, Saskia A1 - Barquist, Lars A1 - Li, Lei A1 - Schoen, Christoph A1 - Vogel, Jörg T1 - The primary transcriptome of Neisseria meningitidis and its interaction with the RNA chaperone Hfq JF - Nucleic Acids Research N2 - Neisseria meningitidis is a human commensal that can also cause life-threatening meningitis and septicemia. Despite growing evidence for RNA-based regulation in meningococci, their transcriptome structure and output of regulatory small RNAs (sRNAs) are incompletely understood. Using dRNA-seq, we have mapped at single-nucleotide resolution the primary transcriptome of N. meningitidis strain 8013. Annotation of 1625 transcriptional start sites defines transcription units for most protein-coding genes but also reveals a paucity of classical σ70-type promoters, suggesting the existence of activators that compensate for the lack of −35 consensus sequences in N. meningitidis. The transcriptome maps also reveal 65 candidate sRNAs, a third of which were validated by northern blot analysis. Immunoprecipitation with the RNA chaperone Hfq drafts an unexpectedly large post-transcriptional regulatory network in this organism, comprising 23 sRNAs and hundreds of potential mRNA targets. Based on this data, using a newly developed gfp reporter system we validate an Hfq-dependent mRNA repression of the putative colonization factor PrpB by the two trans-acting sRNAs RcoF1/2. Our genome-wide RNA compendium will allow for a better understanding of meningococcal transcriptome organization and riboregulation with implications for colonization of the human nasopharynx. KW - RNA KW - Neisseria meningitidis KW - dRNA-seq KW - transcriptome KW - RNA chaperone Hfq Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170828 VL - 45 IS - 10 ER - TY - JOUR A1 - Bakari-Soale, Majeed A1 - Ikenga, Nonso Josephat A1 - Scheibe, Marion A1 - Butter, Falk A1 - Jones, Nicola G. A1 - Kramer, Susanne A1 - Engstler, Markus T1 - The nucleolar DExD/H protein Hel66 is involved in ribosome biogenesis in Trypanosoma brucei JF - Scientific Reports N2 - The biosynthesis of ribosomes is a complex cellular process involving ribosomal RNA, ribosomal proteins and several further trans-acting factors. DExD/H box proteins constitute the largest family of trans-acting protein factors involved in this process. Several members of this protein family have been directly implicated in ribosome biogenesis in yeast. In trypanosomes, ribosome biogenesis differs in several features from the process described in yeast. Here, we have identified the DExD/H box helicase Hel66 as being involved in ribosome biogenesis. The protein is unique to Kinetoplastida, localises to the nucleolus and its depletion via RNAi caused a severe growth defect. Loss of the protein resulted in a decrease of global translation and accumulation of rRNA processing intermediates for both the small and large ribosomal subunits. Only a few factors involved in trypanosome rRNA biogenesis have been described so far and our findings contribute to gaining a more comprehensive picture of this essential process. KW - infection KW - parasite evolution KW - parasite genetics KW - RNA Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-263872 VL - 11 IS - 1 ER - TY - JOUR A1 - Binas, Oliver A1 - Bessi, Irene A1 - Schwalbe, Harald T1 - Structure Validation of G‐Rich RNAs in Noncoding Regions of the Human Genome JF - ChemBioChem N2 - We present the rapid biophysical characterization of six previously reported putative G‐quadruplex‐forming RNAs from the 5′‐untranslated region (5′‐UTR) of silvestrol‐sensitive transcripts for investigation of their secondary structures. By NMR and CD spectroscopic analysis, we found that only a single sequence—[AGG]\(_{2}\)[CGG]\(_{2}\)C—folds into a single well‐defined G‐quadruplex structure. Sequences with longer poly‐G strands form unspecific aggregates, whereas CGG‐repeat‐containing sequences exhibit a temperature‐dependent equilibrium between a hairpin and a G‐quadruplex structure. The applied experimental strategy is fast and provides robust readout for G‐quadruplex‐forming capacities of RNA oligomers. KW - biophysical investigation KW - circular dichroism KW - G-quadruplexes KW - NMR spectroscopy KW - RNA Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-214892 VL - 21 IS - 11 SP - 1656 EP - 1663 ER - TY - INPR A1 - Scheitl, Carolin P. M. A1 - Mieczkowski, Mateusz A1 - Schindelin, Hermann A1 - Höbartner, Claudia T1 - Structure and mechanism of the methyltransferase ribozyme MTR1 T2 - Nature Chemical Biology N2 - RNA-catalysed RNA methylation was recently shown to be part of the catalytic repertoire of ribozymes. The methyltransferase ribozyme MTR1 catalyses the site-specific synthesis of 1-methyladenosine (m\(^1\)A) in RNA, using O\(^6\)-methylguanine (m\(^6\)G) as methyl group donor. Here we report the crystal structure of MTR1 at a resolution of 2.8 Å, which reveals a guanine binding site reminiscent of natural guanine riboswitches. The structure represents the postcatalytic state of a split ribozyme in complex with the m1A-containing RNA product and the demethylated cofactor guanine. The structural data suggest the mechanistic involvement of a protonated cytidine in the methyl transfer reaction. A synergistic effect of two 2'-O-methylated ribose residues in the active site results in accelerated methyl group transfer. Supported by these results, it seems plausible that modified nucleotides may have enhanced early RNA catalysis and that metabolite-binding riboswitches may resemble inactivated ribozymes that have lost their catalytic activity during evolution. KW - Methyltransferase Ribozyme MTR1 KW - Crystal structure of MTR1 KW - RNA-catalyzed RNA methylation KW - X-ray crystallography KW - RNA Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-272170 ET - submitted version ER - TY - JOUR A1 - Ye, Liqing A1 - Ambi, Uddhav B. A1 - Olguin-Nava, Marco A1 - Gribling-Burrer, Anne-Sophie A1 - Ahmad, Shazeb A1 - Bohn, Patrick A1 - Weber, Melanie M. A1 - Smyth, Redmond P. T1 - RNA structures and their role in selective genome packaging JF - Viruses N2 - To generate infectious viral particles, viruses must specifically select their genomic RNA from milieu that contains a complex mixture of cellular or non-genomic viral RNAs. In this review, we focus on the role of viral encoded RNA structures in genome packaging. We first discuss how packaging signals are constructed from local and long-range base pairings within viral genomes, as well as inter-molecular interactions between viral and host RNAs. Then, how genome packaging is regulated by the biophysical properties of RNA. Finally, we examine the impact of RNA packaging signals on viral evolution. KW - RNA virus KW - RNA KW - RNA structure KW - genome packaging KW - viral assembly KW - evolution Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-246101 SN - 1999-4915 VL - 13 IS - 9 ER - TY - JOUR A1 - Schöttker, Björn A1 - Schmidt-Wolf, Ingo G. H. T1 - Pulsing with blast cell lysate or blast-derived total RNA reverses the dendritic cell-mediated cytotoxic activity of cytokine-induced killer cells against allogeneic acute myelogenous leukemia cells T1 - Pulsen mit Blastenzelllysat oder Blasten-Gesamt-RNA richtet die durch dendritische Zellen vermittelte Aktivität von Zytokin-induzierten Killerzellen gegen allogene akute myeloische Zellen JF - GMS German Medical Science N2 - Immunotherapeutic strategies may be a treatment option in patients with refractory acute myelogenous leukemia (AML) or, in cases of complete remission after conventional therapy regimens, may help to reduce disease recurrence or delay time to progression. Evidence suggests a key role of dendritic cells (DCs) in cancer immunotherapy due to their capacity to present tumour antigens to effector cells. We generated cytokine-induced killer (CIK) cells from healthy donors and examined their responses in vitro in an LDH release assay against three cell lines and allogeneic HLA non-matched blasts from three patients with de novo AML after coincubation with autologous peripheral blood monocyte-derived DCs. Although DCs were unable to enhance CIK cell effects against all three cell lines tested, the cytotoxic activity against the patients’ AML cells increased after coculture with mature DCs, which was significant in two of three patients. However, neither prior pulsing of the DCs with blast cell lysates nor with leukemic cell-derived total RNA further enhanced the lytic capacity of the CIK cells. On the contrary, pulsing reduced or even reversed the cytotoxic activity of the effector cells. This decrease of allogeneic cytotoxicity led us to conclude that monocyte-derived DCs may be useful in autologous or allogeneic vaccine strategies for the treatment of AML or in priming donor lymphocytes in vitro, but unfractionated antigens as pulsing agents may have inhibitory effects on T cell efficiency and their employment in immunotherapeutic strategies for AML seems questionable. N2 - Immuntherapeutische Strategien können eine Behandlungsoption bei Patienten mit refraktärer akuter myeloischer Leukämie (AML) sein oder in den Fällen einer kompletten Remission nach konventionellen Therapieformen helfen, das Wiederauftreten der Krankheit zu verhindern oder die Zeit bis zur Progression zu verlängern. Es gibt Hinweise darauf, dass dendritische Zellen (DCs) eine zentrale Rolle in der Krebs-Immuntherapie spielen aufgrund ihrer Fähigkeit, tumorantigene Effektor-Zellen zu präsentieren. Wir stellten Zytokin-induzierte Killer (CIK)-Zellen von gesunden Spendern her und untersuchten deren Reaktionen in vitro in einem Laktatdehydrogenase (LDH)-Assay gegen Zelllinien und allogene HLA nicht übereinstimmende Blasten von drei Patienten mit de novo AML nach Koinkubation mit autologen aus dem peripheren Blut abgeleiteten DCs. Obwohl DCs die CIK Zellen Wirksamkeit gegen alle drei getesteten Zelllinien nicht verbessern konnten, wurde die zytotoxische Aktivität gegen die Patienten-AML-Zellen nach Kokultur mit reifen DCs in zwei von drei Patienten signifikant erhöht. Doch weder ein Pulsen der DCs mit blastären Zelllysaten noch mit aus leukämischen Zellen gewonnener Gesamt-RNA konnten die lytische Kapazität der CIK-Zellen weiter verbessern. Im Gegenteil, gepulste DCs reduzierten sogar die zytotoxische Aktivität der Effektorzellen. Dieser Rückgang der allogenen Zytotoxizität führte uns zu dem Schluss, dass von Monozyten abgeleitete DCs nützlich sein könnten in autologen oder allogenen Impfstrategien zur Behandlung von AML. Unfraktionierte Antigene zum Pulsen von DC können dagegen hemmende Wirkung auf T-Zellen haben. KW - dendritic cells KW - AML KW - blast-derived RNA KW - Zytokin-induzierte Killerzellen KW - Zelllysat KW - cytokine-induced killer cells KW - blast cell lysate KW - dendritische Zellen KW - RNA Y1 - 2011 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0183-0001410 VL - 9 IS - Doc18 ER - TY - THES A1 - Siewert, Aaron T1 - Nucleotide analogs as rigid spin labels for DNA and RNA T1 - Nukleotidanaloga als starre Spinmarker für DNA und RNA N2 - Nucleic acids are one of the important classes of biomolecules together with carbohydrates, proteins and lipids. Both deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) are most well known for their respective roles in the storage and expression of genetic information. Over the course of the last decades, nucleic acids with a variety of other functions have been discovered in biological organisms or created artificially. Examples of these functional nucleic acids are riboswitches, aptamers and ribozymes. In order to gain information regarding their function, several analytical methods can be used. Electron paramagnetic resonance (EPR) spectroscopy is one of several techniques which can be used to study nucleic acid structure and dynamics. However, EPR spectroscopy requires unpaired electrons and because nucleic acids themselves are not paramagnetic, the incorporation of spin labels which carry a radical is necessary. Here, three new spin labels for the analysis of nucleic acids by EPR spectroscopy are presented. All of them share two important design features. First, the paramagnetic center is located at a nitroxide, flanked by ethyl groups to prevent nitroxide degradation, for example during solid phase synthesis. Furthermore, they were designed with rigidity as an important quality, in order to be useful for applications like pulsed electron double resonance (PELDOR) spectroscopy, where independent motion of the spin labels relative to the macromolecule has a noticeable negative effect on the precision of the measurements. Benzi-spin is a spin label which differs from most previous examples of rigid spin labels in that rather than being based on a canonical nucleoside, with a specific base pairing partner, it is supposed to be a universal nucleoside which is sufficiently rigid for EPR measurements when placed opposite to a number of different nucleosides. Benzi-spin was successfully incorporated into a 20 nt oligonucleotide and its base pairing behavior with seven different nucleosides was examined by UV/VIS thermal denaturation and continuous wave (CW) EPR experiments. The results show only minor differences between the different nucleosides, thus confirming the ability of benzi-spin to act as a universally applicable spin label. Lumi-spin is derived from lumichrome. It features a rigid scaffold, as well as a free 2'-hydroxy group, which should make it well suited for PELDOR experiments once it is incorporated into RNA oligonucleotides. EÇr is based on the Ç family of spin labels, which contains the most well known rigid spin labels for nucleic acids to this day. It is essentially a version of EÇm with a free 2'-hydroxy group. It was converted to triphosphate EÇrTP and used for primer extension experiments to test the viability of enzymatic incorporation of rigid spin labels into oligonucleotides as an alternative to solid-phase synthesis. Incorporation into DNA by Therminator III DNA polymerase in both single-nucleotide and full-length primer extensions was achieved. All three of these spin labels represent further additions to the expanding toolbox of EPR spectroscopy on nucleic acids and might prove valuable for future research. N2 - Nukleinsäuren sind neben den Kohlenhydraten, Proteinen und Lipiden eine der wichtigen Klassen von Biomolekülen. Sowohl Deoxyribonukleinsäure (DNA) und Ribonukleinsäure (RNA) sind am besten für ihre Funktionen bei der Speicherung und Expression der genetischen Informationen bekannt. Während der letzten Jahrzehnte wurden Nukleinsäuren mit einer Vielzahl von Funktionen in biologischen Organismen entdeckt oder künstlich hergestellt. Beispiele für diese funktionellen Nukleinsäuren sind Riboswitches, Aptamere und Ribozyme. Um Informationen über ihre Funktionsweisen zu erhalten, können verschiedene analytische Methoden verwendet werden. Elektronenspinresonanzspektroscopie (ESR) ist eine Analysetechnik, die Aufschluss über Struktur und Dynamik von Nukleinsäuren geben kann. Für ESR Messungen werden ungepaarte Elektronen benötigt, sodass nicht paramagnetische Verbindungen mit einem Spinmarker modifiziert werden müssen, der ein Radikal trägt. In dieser Arbeit werden drei neue Spinmarker für die ESR Analyse von Nukleinsäuren vorgestellt. Allen liegen zwei Designprinzipien zugrunde. Erstens wird als paramagnetische Verbindung ein Nitroxid verwendet, welches von Ethylgruppen flankiert wird um das Radikal zu stabilisieren, zum Beispiel gegen Reagenzien, die in der Festphasensynthese verwendet werden. Zweitens sind die Nitroxide Teil starrer Ringsysteme. Dies ist besonders wichtig für Anwendungen wie Abstandsmessungen mittels Pulselektronendoppelresonanzspektroskopie (PELDOR), wo die Genauigkeit der Messung von Bewegungen der Spinmarker relativ zum Makromolekül beeinträchtigt wird. Benzi-spin unterscheidet sich von vielen anderen starren Spinmarkern dadurch, dass es nicht auf einem kanonischen Nukleosid mit einem spezifischen Bindungspartner basiert. Stattdessen handelt es sich um ein universelles Nukleosid, das unabhängig vom gegenüberliegenden Nukleosid starr genug für ESR Messungen ist. Benzi-spin wurde erfolgreich in ein Oligonucleotid eingebaut und seine Basenpaarung mit sieben verschiedenen Nukleosiden mittels UV/VIS Schmelzkurven und Continuous Wave (CW) ESR Experimenten untersucht. Die Ergebnisse zeigen nur geringe Unterschiede zwischen den verschiedenen Nukleosiden, was die Einsetzbarkeit von Benzi-spin als universeller Spinmarker bestätigt. Lumi-spin ist vom Lumichrom abgeleitet. Es zeichnet sich durch ein starres Gerüst und eine freie 2'-Hydroxygruppe aus, wodurch es gut für PELDOR Messungen in RNA geeignet sein sollte. EÇr gehört zur Ç Familie, welche die am besten bekannten starren Spinmarker für Nukleinsäuren enthält. Es handelt sich um eine Version von EÇm mit einer freien 2'-Hydroxygruppe. EÇr wurde zum Triphosphat EÇrTP konvertiert und für Primer Extension Experimente verwendet um die Möglichkeit des enzymatischen Einbaus starrer Spinmarker in Oligonukleotide als Alternative zur Festphasensynthese zu prüfen. Der Einbau in DNA mit Therminator III DNA Polymerase in Primer Extensions war erfolgreich. Alle drei Spinmarker erweitern die Möglichkeiten der ESR-spektroskopischen Untersuchung von Nukleinsäuren und können sich für zukünftige Forschung als nützlich erweisen. KW - Nucleinsäuren KW - DNS KW - RNS KW - Elektronenspinresonanzspektroskopie KW - Spin-Sonde KW - Nucleic acids KW - DNA KW - RNA KW - EPR spectroscopy KW - Spin labels Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-247657 ER -