TY - THES A1 - Steffen, Jenny T1 - Transkription von Markergenen an immbolisierten Nukleinsäuren T1 - Transcription of reportegenes with immobilized nucleic acids N2 - Die Etablierung der Transkription von kompletten Genen auf planaren Oberflächen soll eine Verbindung zwischen der Mikroarraytechnologie und der Transkriptomforschung herstellen. Darüber hinaus kann mit diesem Verfahren ein Brückenschlag zwischen der Synthese der Gene und ihrer kodierenden Proteine auf einer Oberfläche erfolgen. Alle transkribierten RNAs wurden mittels RT-PCR in cDNA umgeschrieben und in einer genspezifischen PCR amplifiziert. Die PCR-Produkte wurden hierfür entweder per Hand oder maschinell auf die Oberfläche transferiert. Über eine Oberflächen-PCR war es möglich, die Gensequenz des Reportergens EGFP direkt auf der Oberfläche zu synthetisieren und anschließend zu transkribieren. Somit war eine Transkription mit weniger als 1 ng an Matrize möglich. Der Vorteil einer Oberflächen-Transkription gegenüber der in Lösung liegt in der mehrfachen Verwendung der immobilisierten Matrize, wie sie in dieser Arbeit dreimal erfolgreich absolviert wurde. Die Oberflächen-Translation des EGFP-Gens konnte ebenfalls zweimal an einer immobilisierten Matrize gezeigt werden, wobei Zweifel über eine echte Festphasen-Translation nicht ausgeräumt werden konnten. Zusammenfassend kann festgestellt werden, dass die Transkription und Translation von immobilisierten Gensequenzen auf planaren Oberflächen möglich ist, wofür die linearen Matrizen direkt auf der Oberfläche synthetisiert werden können. N2 - In vitro mRNA synthesis and in vitro translation are of great interest for biochemical and molecular biological basic research, and also for biotechnology and other applications. Solid phase coupled synthesis is very useful for the development of high throughput procedures to elucidate and manipulate gene products. An artificial gene was constructed combining the T7 promoter and terminator with the EGFP-gene from the plasmid pEGFP. The functionality of the construct was shown by in vitro translation. The gene-construct was immobilised on a planar glass surface. The transcription was performed on the immobilised gene and mRNA was determined by RT-PCR. These results demonstrate that the complete gene is transcribed from the covalently coupled PCR product. Thus, it is possible to transfer a standard transcription technique onto an On-chip reaction. The direct PCR amplification of transcriptionable sequences of EGFP bound on surfaces was successfully used for solid phase transcription. Successful transcriptions were also performed at least to 1 ng of used template. The RNA synthesis was also successful in the second and third reaction on the same slide as observed by signals after RT-PCR. It seems to be possible to transfer the translation of reportergenes in a solid phase coupled synthesis, too. For further integration of cellular procedures on a chip, the cell-free RNA synthesis on immobilised templates is an crucial technical hurdle to conquer. Major advantages of using immobilised templates for transcription are, low risk of contamination occuring in solution, and no necessity of further purification steps for downstream applications of the RNA product. KW - Immobilisierung KW - Transkription KW - Translation KW - Bakteriophage T7 KW - Lab on chip KW - EGFP KW - Stammschleife KW - Lab on chip KW - transcription KW - translation KW - EGFP KW - stem loop KW - immobilization KW - T7 Y1 - 2005 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-10282 ER - TY - GEN A1 - Bentele, Kajetan A1 - Saffert, Paul A1 - Rauscher, Robert A1 - Ignatova, Zoya A1 - Bluethgen, Nils T1 - Efficient translation initiation dictates codon usage at gene start T2 - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - The genetic code is degenerate; thus, protein evolution does not uniquely determine the coding sequence. One of the puzzles in evolutionary genetics is therefore to uncover evolutionary driving forces that result in specific codon choice. In many bacteria, the first 5-10 codons of protein-coding genes are often codons that are less frequently used in the rest of the genome, an effect that has been argued to arise from selection for slowed early elongation to reduce ribosome traffic jams. However, genome analysis across many species has demonstrated that the region shows reduced mRNA folding consistent with pressure for efficient translation initiation. This raises the possibility that unusual codon usage is a side effect of selection for reduced mRNA structure. Here we discriminate between these two competing hypotheses, and show that in bacteria selection favours codons that reduce mRNA folding around the translation start, regardless of whether these codons are frequent or rare. Experiments confirm that primarily mRNA structure, and not codon usage, at the beginning of genes determines the translation rate. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 912 KW - codon usage KW - mRNA structure KW - translation Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-441337 SN - 1866-8372 IS - 912 ER - TY - JOUR A1 - Bentele, Kajetan A1 - Saffert, Paul A1 - Rauscher, Robert A1 - Ignatova, Zoya A1 - Bluethgen, Nils T1 - Efficient translation initiation dictates codon usage at gene start JF - Molecular systems biology N2 - The genetic code is degenerate; thus, protein evolution does not uniquely determine the coding sequence. One of the puzzles in evolutionary genetics is therefore to uncover evolutionary driving forces that result in specific codon choice. In many bacteria, the first 5-10 codons of protein-coding genes are often codons that are less frequently used in the rest of the genome, an effect that has been argued to arise from selection for slowed early elongation to reduce ribosome traffic jams. However, genome analysis across many species has demonstrated that the region shows reduced mRNA folding consistent with pressure for efficient translation initiation. This raises the possibility that unusual codon usage is a side effect of selection for reduced mRNA structure. Here we discriminate between these two competing hypotheses, and show that in bacteria selection favours codons that reduce mRNA folding around the translation start, regardless of whether these codons are frequent or rare. Experiments confirm that primarily mRNA structure, and not codon usage, at the beginning of genes determines the translation rate. KW - codon usage KW - mRNA structure KW - translation Y1 - 2013 U6 - https://doi.org/10.1038/msb.2013.32 SN - 1744-4292 VL - 9 IS - 6 PB - Nature Publ. Group CY - New York ER - TY - BOOK A1 - Mickiewicz, Adam ED - Norberg, Madlena ED - Kosta, Peter T1 - Adam Mickiewicz BT - Basni w serbskich pśełožkach T3 - Potsdamer Beiträge zur Sorabistik T3 - Podstupimske pśinoski k Sorabistice N2 - Die vorliegende Ausgabe der „Potsdamer Beiträge zur Sorabistik – Podstupimske pśinoski k Sorabistice“ Adam Mickiewicz, Gedichte in sorbischer Übersetzung, zusammengestellt von Alfred Měškank stellt den Jubiläumsband Nr. 10 unserer Serie dar. Wir sind sehr stolz darauf, die Serie herausgeben zu dürfen und vor allem darauf, das Jubiläum mit so einem würdigen Inhalt zu begehen. Adam Mickiewicz (1798-1855) gilt als der größte polnische Dichter, vergleichbar mit J. W. v. Goethe in Deutschland oder John Byron in England. Seine Werke sind in viele Sprachen übersetzt und dadurch in der ganzen Welt bekannt geworden. Bedeutende sorbische Dichter und Übersetzer, wie z.B. Jakub Bart-Ćišinski und Otto Lehmann-Wićaz haben seine Gedichte auch ins Sorbische übersetzt, doch diese Übersetzungen sind verstreut und dem heutigen Interessenten kaum zugänglich. Einige seiner bedeutsamsten Werke, besonders sein Versepos „Pan Tadeusz”, sowie Teile seines dramatischen Werkes „Dziady” fanden erst in neuerer Zeit einen Übersetzer. Die vorliegende Edition, die eine Zusammenstellung aller bisher ins Sorbische/Wendische übersetzten Werke des großen polnischen Dichters der Romantik darstellt, schließt diese Lücke nun. N2 - This edition of Adam Mickiewicz’s poems in Sorbian translation, compiled by Alfred Měškank, represents the anniversary edition # 10 of our series "Potsdam Contributions to Sorabistics - Podstupimske pśinoski k Sorabistice” . We are very proud to release the series and especially flattered to celebrate the anniversary with such a worthy content. Adam Mickiewicz (1798-1855) is considered the greatest Polish poet, comparable to JW Goethe in Germany or to John Byron in England. His work has been translated into many languages, and thereby become known throughout the world. Significant Sorbian poets and translators, such as Jakub Bart-Ćišinski and Otto Lehmann-Wićaz have also translated his poems into Sorbian language, but these translations are scattered and difficult to access from today's prospective. Some of his major works, particularly his epic poem "Pan Tadeusz", as well as parts of his dramatic work "Dziady" found only recently a translator. The present edition, which is a compilation of all previously published works of the great Polish romantic poet in Sorbian/Wendish language, fills this gap now. T3 - Podstupimske pśinoski k Sorabistice = Potsdamer Beiträge zur Sorabistik - 10 KW - Lyrik KW - Mickiewicz KW - Übersetzung KW - niedersorbisch KW - polnisch KW - Poetry KW - Mickiewicz KW - translation KW - Lower Sorbian KW - Polish Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-60508 SN - 978-3-86956-205-6 SN - 1615-2476 SN - 2192-1016 PB - Universitätsverlag Potsdam CY - Potsdam ER - TY - JOUR A1 - Kannan, Krishna A1 - Kanabar, Pinal A1 - Schryer, David A1 - Florin, Tanja A1 - Oh, Eugene A1 - Bahroos, Neil A1 - Tenson, Tanel A1 - Weissman, Jonathan S. A1 - Mankin, Alexander S. T1 - The general mode of translation inhibition by macrolide antibiotics JF - Proceedings of the National Academy of Sciences of the United States of America KW - ribosome KW - antibiotics KW - macrolides KW - translation KW - peptidyl transferase Y1 - 2014 U6 - https://doi.org/10.1073/pnas.1417334111 SN - 0027-8424 VL - 111 IS - 45 SP - 15958 EP - 15963 PB - National Acad. of Sciences CY - Washington ER - TY - JOUR A1 - Benina, Maria A1 - Ribeiro, Dimas Mendes A1 - Gechev, Tsanko S. A1 - Müller-Röber, Bernd A1 - Schippers, Jos H. M. T1 - A cell type-specific view on the translation of mRNAs from ROS-responsive genes upon paraquat treatment of Arabidopsis thaliana leaves JF - Plant, cell & environment : cell physiology, whole-plant physiology, community physiology N2 - Oxidative stress causes dramatic changes in the expression levels of many genes. The formation of a functional protein through successful mRNA translation is central to a coordinated cellular response. To what extent the response towards reactive oxygen species (ROS) is regulated at the translational level is poorly understood. Here we analysed leaf- and tissue-specific translatomes using a set of transgenic Arabidopsis thaliana lines expressing a FLAG-tagged ribosomal protein to immunopurify polysome-bound mRNAs before and after oxidative stress. We determined transcript levels of 171 ROS-responsive genes upon paraquat treatment, which causes formation of superoxide radicals, at the whole-organ level. Furthermore, the translation of mRNAs was determined for five cell types: mesophyll, bundle sheath, phloem companion, epidermal and guard cells. Mesophyll and bundle sheath cells showed the strongest response to paraquat treatment. Interestingly, several ROS-responsive transcription factors displayed cell type-specific translation patterns, while others were translated in all cell types. In part, cell type-specific translation could be explained by the length of the 5-untranslated region (5-UTR) and the presence of upstream open reading frames (uORFs). Our analysis reveals insights into the translational regulation of ROS-responsive genes, which is important to understanding cell-specific responses and functions during oxidative stress. The study illustrates the response of different Arabidopsis thaliana leaf cells and tissues to oxidative stress at the translational level, an aspect of reactive oxygen species (ROS) biology that has been little studied in the past. Our data reveal insights into how translational regulation of ROS-responsive genes is fine-tuned at the cellular level, a phenomenon contributing to the integrated physiological response of leaves to stresses involving changes in ROS levels. KW - Arabidopsis KW - gene regulation KW - oxidative stress KW - tissue-specific KW - translation Y1 - 2015 U6 - https://doi.org/10.1111/pce.12355 SN - 0140-7791 SN - 1365-3040 VL - 38 IS - 2 SP - 349 EP - 363 PB - Wiley-Blackwell CY - Hoboken ER - TY - GEN A1 - Lukoszek, Radoslaw A1 - Feist, Peter A1 - Ignatova, Zoya T1 - Insights into the adaptive response of Arabidopsis thaliana to prolonged thermal stress by ribosomal profiling and RNA-Seq T2 - BMC plant biology N2 - Background: Environmental stress puts organisms at risk and requires specific stress-tailored responses to maximize survival. Long-term exposure to stress necessitates a global reprogramming of the cellular activities at different levels of gene expression. Results: Here, we use ribosome profiling and RNA sequencing to globally profile the adaptive response of Arabidopsis thaliana to prolonged heat stress. To adapt to long heat exposure, the expression of many genes is modulated in a coordinated manner at a transcriptional and translational level. However, a significant group of genes opposes this trend and shows mainly translational regulation. Different secondary structure elements are likely candidates to play a role in regulating translation of those genes. Conclusions: Our data also uncover on how the subunit stoichiometry of multimeric protein complexes in plastids is maintained upon heat exposure. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 438 KW - translation KW - ribosome profiling KW - transcription KW - RNA-Seq KW - secondary structure KW - G-quadruplexes, KW - heat stress response Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-407262 ER - TY - JOUR A1 - Saffert, Paul A1 - Adamla, Frauke A1 - Schieweck, Rico A1 - Atkins, John F. A1 - Ignatova, Zoya T1 - An Expanded CAG Repeat in Huntingtin Causes+1 Frameshifting JF - The journal of biological chemistry N2 - Maintenance of triplet decoding is crucial for the expression of functional protein because deviations either into the -1 or +1 reading frames are often non-functional. We report here that expression of huntingtin (Htt) exon 1 with expanded CAG repeats, implicated in Huntington pathology, undergoes a sporadic +1 frameshift to generate from the CAG repeat a trans-frame AGC repeat-encoded product. This +1 recoding is exclusively detected in pathological Htt variants, i.e. those with expanded repeats with more than 35 consecutive CAG codons. An atypical +1 shift site, UUC C at the 5 end of CAG repeats, which has some resemblance to the influenza A virus shift site, triggers the +1 frameshifting and is enhanced by the increased propensity of the expanded CAG repeats to form a stem-loop structure. The +1 trans-frame-encoded product can directly influence the aggregation of the parental Htt exon 1. KW - aggregation KW - Huntington disease KW - translation KW - translation regulation KW - trinucleotide repeat disease KW - frameshifting KW - seeding Y1 - 2016 U6 - https://doi.org/10.1074/jbc.M116.744326 SN - 0021-9258 SN - 1083-351X VL - 291 SP - 18505 EP - 18513 PB - American Society for Biochemistry and Molecular Biology CY - Bethesda ER - TY - JOUR A1 - Gorochowski, Thomas E. A1 - Aycilar-Kucukgoze, Irem A1 - Bovenberg, Roel A. L. A1 - Roubos, Johannes A. A1 - Ignatova, Zoya T1 - A Minimal Model of Ribosome Allocation Dynamics Captures Trade-offs in Expression between Endogenous and Synthetic Genes JF - ACS synthetic biology N2 - Cells contain a finite set of resources that must be distributed across many processes to ensure survival. Among them, the largest proportion of cellular resources is dedicated to protein translation. Synthetic biology often exploits these resources in executing orthogonal genetic circuits, yet the burden this places on the cell is rarely considered. Here, we develop a minimal model of ribosome allocation dynamics capturing the demands on translation when expressing a synthetic construct together with endogenous genes required for the maintenance of cell physiology. Critically, it contains three key variables related to design parameters of the synthetic construct covering transcript abundance, translation initiation rate, and elongation time. We show that model-predicted changes in ribosome allocation closely match experimental shifts in synthetic protein expression rate and cellular growth. Intriguingly, the model is also able to accurately infer transcript levels and translation times after further exposure to additional ambient stress. Our results demonstrate that a simple model of resource allocation faithfully captures the redistribution of protein synthesis resources when faced with the burden of synthetic gene expression and environmental stress. The tractable nature of the model makes it a versatile tool for exploring the guiding principles of efficient heterologous expression and the indirect interactions that can arise between synthetic circuits and their host chassis because of competition for shared translational resources. KW - protein biosynthesis KW - translation KW - synthetic biology KW - systems biology Y1 - 2016 U6 - https://doi.org/10.1021/acssynbio.6b00040 SN - 2161-5063 VL - 5 SP - 710 EP - 720 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Bartholomäus, Alexander A1 - Fedyunin, Ivan A1 - Feist, Peter A1 - Sin, Celine A1 - Zhang, Gong A1 - Valleriani, Angelo A1 - Ignatova, Zoya T1 - Bacteria differently regulate mRNA abundance to specifically respond to various stresses JF - Geology N2 - Environmental stress is detrimental to cell viability and requires an adequate reprogramming of cellular activities to maximize cell survival. We present a global analysis of the response of Escherichia coli to acute heat and osmotic stress. We combine deep sequencing of total mRNA and ribosome-protected fragments to provide a genome-wide map of the stress response at transcriptional and translational levels. For each type of stress, we observe a unique subset of genes that shape the stress-specific response. Upon temperature upshift, mRNAs with reduced folding stability up-and downstream of the start codon, and thus with more accessible initiation regions, are translationally favoured. Conversely, osmotic upshift causes a global reduction of highly translated transcripts with high copy numbers, allowing reallocation of translation resources to not degraded and newly synthesized mRNAs. KW - transcription KW - translation KW - deep sequencing KW - Escherichia coli KW - copy numbers Y1 - 2016 U6 - https://doi.org/10.1098/rsta.2015.0069 SN - 1364-503X SN - 1471-2962 VL - 374 PB - Royal Society CY - London ER -