@phdthesis{Czechowski2005,
  author    = {Czechowski, Tomasz},
  title     = {Nitrogen signalling in Arabidopsis thaliana},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-5445},
  school      = {Universit{\"a}t Potsdam},
  year      = {2005},
  abstract  = {Nitrogen is an essential macronutrient for plants and nitrogen fertilizers are indispensable for modern agriculture. Unfortunately, we know too little about how plants regulate their use of soil nitrogen, to maximize fertilizers-N use by crops and pastures. This project took a dual approach, involving forward and reverse genetics, to identify N-regulators in plants, which may prove useful in the future to improve nitrogen-use efficiency in agriculture. To identify nitrogen-regulated transcription factor genes in Arabidopsis that may control N-use efficiency we developed a unique resource for qRT-PCR measurements on all Arabidpsis transcription factor genes. Using closely spaced, gene-specific primer pairs and SYBR® Green to monitor amplification of double-stranded DNA, transcript levels of 83\% of all target genes could be measured in roots or shoots of young Arabidopsis wild-type plants. Only 4\% of reactions produced non-specific PCR products, and 13\% of TF transcripts were undetectable in these organs. Measurements of transcript abundance were quantitative over six orders of magnitude, with a detection limit equivalent to one transcript molecule in 1000 cells. Transcript levels for different TF genes ranged between 0.001-100 copies per cell. Real-time RT-PCR revealed 26 root-specific and 39 shoot-specific TF genes, most of which have not been identified as organ-specific previously. An enlarged and improved version of the TF qRT-PCR platform contains now primer pairs for 2256 Arabidopsis TF genes, representing 53 gene families and sub-families arrayed on six 384-well plates. Set-up of real-time PCR reactions is now fully robotized. One researcher is able to measure expression of all 2256 TF genes in a single biological sample in a just one working day. The Arabidopsis qRT-PCT platform was successfully used to identify 37 TF genes which transcriptionaly responded at the transcriptional level to N-deprivation or to nitrate per se. Most of these genes have not been characterized previously. Further selection of TF genes based on the responses of selected candidates to other macronutrients and abiotic stresses allowed to distinguish between TFs regulated (i) specifically by nitrogen (29 genes) (ii) regulated by general macronutrient or by salt and osmotic stress (6 genes), and (iii) responding to all major macronutrients and to abiotic stresses. Most of the N-regulated TF genes were also regulated by carbon. Further characterization of sixteen selected TF genes, revealed: (i) lack of transcriptional response to organic nitrogen, (ii) two major types of kinetics of induction by nitrate, (iii) specific responses for the majority of the genes to nitrate but not downstream products of nitrate assimilation. All sixteen TF genes were cloned into binary vectors for constitutive and ethanol inducible over expression, and the first generation of transgenic plants were obtained for almost all of them. Some of the plants constitutively over expressing TF genes under control of the 35S promoter revealed visible phenotypes in T1 generation. Homozygous T-DNA knock out lines were also obtained for many of the candidate TF genes. So far, one knock out line revealed a visible phenotype: retardation of flowering time. A forward genetic approach using an Arabidopsis ATNRT2.1 promoter : Luciferase reporter line, resulted in identification of eleven EMS mutant reporter lines affected in induction of ATNRT2.1 expression by nitrate. These lines could by divided in the following classes according to expression of other genes involved in primary nitrogen and carbon metabolism: (i) lines affected exclusively in nitrate transport, (ii) those affected in nitrate transport, acquisition, but also in glycolysis and oxidative pentose pathway, (iii) mutants affected moderately in nitrate transport, oxidative pentose pathway and glycolysis but not in primary nitrate assimilation. Thus, several different N-regulatory genes may have been mutated in this set of mutants. Map-based cloning has begun to identify the genes affected in these mutants.},
  subject      = {Stickstoff},
  language  = {en}
}
@phdthesis{Eichelmann2019,
  author    = {Eichelmann, Fabian},
  title     = {Novel adipokines as inflammatory biomarkers of chronic disease risk},
  school      = {Universit{\"a}t Potsdam},
  pages     = {133},
  year      = {2019},
  language  = {en}
}
@phdthesis{Omranian2022,
  author    = {Omranian, Sara},
  title     = {Novel algorithms for prediction of protein complexes from protein-protein interacton networks},
  school      = {Universit{\"a}t Potsdam},
  pages     = {123},
  year      = {2022},
  language  = {en}
}
@phdthesis{Wagner2005,
  author    = {Wagner, Karen},
  title     = {nTOBEC - eine neue Methode zur Erfassung der K{\"o}rperzusammensetzung},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-5702},
  school      = {Universit{\"a}t Potsdam},
  year      = {2005},
  abstract  = {Als Resultat {\"u}berh{\"o}hter Energieaufnahme und zu geringen Energieverbrauchs beobachten wir eine {\"u}ber das normale Maß hinausgehende Akkumulation von Fettgewebe, die sich als Adipositas manifestiert. Sie gilt als einer der Hauptrisikofaktoren f{\"u}r Krankheiten des metabolischen Syndroms. Im Rahmen von Pr{\"a}vention, Diagnose und Therapie der Adipositas, muss ihr wesentliches Charakteristikum; der individuelle K{\"o}rperfettanteil; einer Messung zug{\"a}nglich gemacht werden. Eine direkte Bestimmung der K{\"o}rperzusammensetzung erlauben die Neutronenaktivierungsanalyse und die chemische Analyse. Beide Verfahren sind sehr genau, aber aufwendig und kostenintensiv und dar{\"u}ber hinaus die chemische Analyse nur am menschlichen Cadaver praktizierbar. Um dennoch die K{\"o}rperzusammensetzung hinreichend genau bestimmen zu k{\"o}nnen, wurden zahlreiche indirekte Messverfahren entwickelt. Man kann sie in Labor- und Feldmethoden untergliedern. Die Labormethoden bestechen durch hohe Genauigkeit und Reproduzierbarkeit, sind aber zumeist aufwendig und teuer. Feldmethoden sind im Gegensatz dazu leicht anwendbar, transportabel und preiswert, weisen aber eine weniger hohe Genauigkeit und Reproduzierbarkeit auf. In der vorgestellten Arbeit wird {\"u}ber eine j{\"u}ngere Entwicklung, die das Prinzip der unterschiedlichen Leitf{\"a}higkeit f{\"u}r den elektrischen Strom durch die verschiedenen Gewebe des K{\"o}rpers nutzt, berichtet. Der Prototyp eines Ger{\"a}tes wurde innerhalb eines von der EU gef{\"o}rderten multizentrischen Projekts entwickelt und auf seine Einsatzf{\"a}higkeit und Qualit{\"a}t hin gepr{\"u}ft. Der Schwerpunkt der Arbeit liegt auf der Einsch{\"a}tzung der K{\"o}rperzusammensetzung normal- und {\"u}bergewichtiger Probanden mit der neu entwickelten Technik. Das vorliegende Studiendesign diente nicht nur der Beurteilung der neuen Technik die K{\"o}rperzusammensetzung und Ver{\"a}nderungen dieser zu erfassen, sondern dar{\"u}ber hinaus, etablierte Methoden hinsichtlich ihrer Genauigkeit zu bewerten. Bez{\"u}glich ihrer Anwendbarkeit und Reproduzierbarkeit hat die neue Methode Hoffnung geweckt, sich als eine Feldmethode zu etablieren. Auf der anderen Seite zeigte sich in Abh{\"a}ngigkeit der Gesamtk{\"o}rperfettmasse eine {\"U}bersch{\"a}tzung der Zielgr{\"o}ße im Vergleich zur Referenzmethode (dual energy x ray absorptiometry (DXA)). Die Abweichungen waren dabei gerade f{\"u}r das einzelne Individuum sehr groß. Technische Verbesserungen und die Entwicklung spezifischer Regressionsgleichungen k{\"o}nnten in Zukunft zu einer wesentlichen Verbesserung der neuen Methode beitragen. Die Labormethode "Air Displacement Plethysmography" konnte durch die guten {\"U}bereinstimmungen der Ergebnisse mit denen der Referenzmethode DXA und die einfache Anwendung {\"u}berzeugen. Sie stellt eine durchaus konkurrenzf{\"a}hige Alternative zur Hydrodensitometrie dar, die noch heute als "goldener Standard" zur Erfassung der K{\"o}rperzusammensetzung akzeptiert wird. Im Verlauf der durchgef{\"u}hrten Studie stellte sich heraus, dass die Hydrodensitometrie sehr hohe Anforderungen an den Probanden stellt. Das Untertauchen des gesamten K{\"o}rpers unter Wasser in Kombination mit einer maximalen Ausatmung erwies sich als sehr problematisch. Die dabei auftretenden Fehler schlugen sich in der Berechnung der Gesamtk{\"o}rperfettmasse des einzelnen Individuums wieder und f{\"u}hrten zu zum Teil erheblichen Abweichungen der Ergebnisse von denen der Referenzmethode. Die Feldmethoden bioelektrische Impedanzanalyse und Hautfaltendickenmessung erwiesen sich als kosteng{\"u}nstige und leicht anwendbare Methoden. Die Ergebnisse beider Methoden stimmten im Mittel gut mit den Ergebnissen der Referenzmethoden {\"u}berein. Dennoch zeigte die BIA gr{\"o}ßere Abstriche in der Beurteilung der Gesamtk{\"o}rperfettmasse des einzelnen Individuums und bei der Dokumentation von Ver{\"a}nderungen der Gesamtk{\"o}rperfettmasse. Die Hautfaltendickenmessung stellt - wendet man sie korrekt an - eine Methode dar, die sowohl die Gesamtk{\"o}rperfettmasse als auch Ver{\"a}nderungen dieser gut erfassen kann. In Abh{\"a}ngigkeit der geforderten Genauigkeit kann diese Methode f{\"u}r die Erfassung der K{\"o}rperzusammensetzung empfohlen werden. Demnach bleibt die Frage unbeantwortet, inwieweit die indirekten Methoden in der Lage sind, die "wahre" K{\"o}rperzusammensetzung ad{\"a}quat zu erfassen. Jede neu entwickelte Methode - die m{\"o}glichst viele Vorteile in sich vereint - wird wieder vor dem Problem stehen: eine geeignete und dabei praktikable Referenzmethode zu finden, die die wahre K{\"o}rperzusammensetzung zu bestimmen in der Lage ist. Daher sollte neben dem Streben nach der Entwicklung einer Methode, die genau und leicht anwendbar ist, das Hauptaugenmerk auf die {\"U}berarbeitung der zugrunde liegenden Modellvorstellungen und die Verbesserung von Regressionsgleichungen gelegt werden.},
  subject      = {Fettsucht},
  language  = {de}
}
@phdthesis{Winck2011,
  author    = {Winck, Flavia Vischi},
  title     = {Nuclear proteomics and transcription factor profiling in Chlamydomonas reinhardtii},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-53909},
  school      = {Universit{\"a}t Potsdam},
  year      = {2011},
  abstract  = {The transcriptional regulation of the cellular mechanisms involves many different components and different levels of control which together contribute to fine tune the response of cells to different environmental stimuli. In some responses, diverse signaling pathways can be controlled simultaneously. One of the most important cellular processes that seem to possess multiple levels of regulation is photosynthesis. A model organism for studying photosynthesis-related processes is the unicellular green algae Chlamydomonas reinhardtii, due to advantages related to culturing, genetic manipulation and availability of genome sequence. In the present study, we were interested in understanding the regulatory mechanisms underlying photosynthesis-related processes. To achieve this goal different molecular approaches were followed. In order to indentify protein transcriptional regulators we optimized a method for isolation of nuclei and performed nuclear proteome analysis using shotgun proteomics. This analysis permitted us to improve the genome annotation previously published and to discover conserved and enriched protein motifs among the nuclear proteins. In another approach, a quantitative RT-PCR platform was established for the analysis of gene expression of predicted transcription factor (TF) and other transcriptional regulator (TR) coding genes by transcript profiling. The gene expression profiles for more than one hundred genes were monitored in time series experiments under conditions of changes in light intensity (200 µE m-2 s-1 to 700 µE m-2 s-1), and changes in concentration of carbon dioxide (5\% CO2 to 0.04\% CO2). The results indicate that many TF and TR genes are regulated in both environmental conditions and groups of co-regulated genes were found. Our findings also suggest that some genes can be common intermediates of light and carbon responsive regulatory pathways. These approaches together gave us new insights about the regulation of photosynthesis and revealed new candidate regulatory genes, helping to decipher the gene regulatory networks in Chlamydomonas. Further experimental studies are necessary to clarify the function of the candidate regulatory genes and to elucidate how cells coordinately regulate the assimilation of carbon and light responses.},
  language  = {en}
}
@phdthesis{Olas2015,
  author    = {Olas, Justyna Jadwiga},
  title     = {Nutrients regulate flowering time},
  school      = {Universit{\"a}t Potsdam},
  pages     = {190},
  year      = {2015},
  language  = {en}
}
@phdthesis{Brunacci2021,
  author    = {Brunacci, Nadia},
  title     = {Oligodepsipeptides as matrix for drug delivery systems and submicron particulate carriers},
  school      = {Universit{\"a}t Potsdam},
  year      = {2021},
  language  = {en}
}
@phdthesis{Ehrlich2019,
  author    = {Ehrlich, Elias},
  title     = {On the role of trade-offs in predator-prey interactions},
  doi       = {10.25932/publishup-43063},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus4-430631},
  school      = {Universit{\"a}t Potsdam},
  pages     = {192},
  year      = {2019},
  abstract  = {Predation drives coexistence, evolution and population dynamics of species in food webs, and has strong impacts on related ecosystem functions (e.g. primary production). The effect of predation on these processes largely depends on the trade-offs between functional traits in the predator and prey community. Trade-offs between defence against predation and competitive ability, for example, allow for prey speciation and predator-mediated coexistence of prey species with different strategies (defended or competitive), which may stabilize the overall food web dynamics. While the importance of such trade-offs for coexistence is widely known, we lack an understanding and the empirical evidence of how the variety of differently shaped trade-offs at multiple trophic levels affect biodiversity, trait adaptation and biomass dynamics in food webs. Such mechanistic understanding is crucial for predictions and management decisions that aim to maintain biodiversity and the capability of communities to adapt to environmental change ensuring their persistence. In this dissertation, after a general introduction to predator-prey interactions and tradeoffs, I first focus on trade-offs in the prey between qualitatively different types of defence (e.g. camouflage or escape behaviour) and their costs. I show that these different types lead to different patterns of predator-mediated coexistence and population dynamics, by using a simple predator-prey model. In a second step, I elaborate quantitative aspects of trade-offs and demonstrates that the shape of the trade-off curve in combination with trait-fitness relationships strongly affects competition among different prey types: Either specialized species with extreme trait combinations (undefended or completely defended) coexist, or a species with an intermediate defence level dominates. The developed theory on trade-off shapes and coexistence is kept general, allowing for applications apart from defence-competitiveness trade-offs. Thirdly, I tested the theory on trade-off shapes on a long-term field data set of phytoplankton from Lake Constance. The measured concave trade-off between defence and growth governs seasonal trait changes of phytoplankton in response to an altering grazing pressure by zooplankton, and affects the maintenance of trait variation in the community. In a fourth step, I analyse the interplay of different tradeoffs at multiple trophic levels with plankton data of Lake Constance and a corresponding tritrophic food web model. The results show that the trait and biomass dynamics of the different three trophic levels are interrelated in a trophic biomass-trait cascade, leading to unintuitive patterns of trait changes that are reversed in comparison to predictions from bitrophic systems. Finally, in the general discussion, I extract main ideas on trade-offs in multitrophic systems, develop a graphical theory on trade-off-based coexistence, discuss the interplay of intra- and interspecific trade-offs, and end with a management-oriented view on the results of the dissertation, describing how food webs may respond to future global changes, given their trade-offs.},
  language  = {en}
}
@phdthesis{OsterlohQuiroz2006,
  author    = {Osterloh-Quiroz, Mandy},
  title     = {Optimierung der Expressionsst{\"a}rke von fremdstoffmetabolisierenden Enzymen in Bakterien und permanenten Zellkulturen f{\"u}r toxikologische Untersuchungen},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-8945},
  school      = {Universit{\"a}t Potsdam},
  year      = {2006},
  abstract  = {Die Enzymsuperfamilie der l{\"o}slichen Sulfotransferasen (SULT) spielt eine wichtige Rolle in der Phase II des Fremdstoffmetabolismus. Sie katalysieren den Transfer einer Sulfonylgruppe auf nucleophile Gruppen endogener und exogener Substrate. Die Sulfokonjugation von Fremdstoffen erh{\"o}ht deren Wasserl{\"o}slichkeit und behindert die passive Permeation von Zellmembranen. Dadurch wird die Ausscheidung dieser konjugierten Substanzen erleichtert. In Abh{\"a}ngigkeit von der Struktur des Zielmolek{\"u}ls kann die Sulfokonjugation aber auch zur metabolischen Aktivierung von Fremdstoffen durch die Bildung instabiler Metabolite f{\"u}hren. Die SULT-vermittelte Aktivierung promutagener Substanzen ist somit von toxikologischem Interesse. F{\"u}r die Detektion SULT-vermittelter Mutagenit{\"a}t mittels bakterieller in-vitro Testsysteme ist die heterologe Expression der fremdstoffmetabolisierenden Enzyme direkt in den Indikatorzellen notwendig. S. typhimurium exprimieren selbst keine SULT, und externe Metabolisierungssysteme sind problematisch, weil die negativ geladenen, kurzlebigen Metabolite nur schlecht die Zellmembran penetrieren k{\"o}nnen. Die Expression humaner Enyme in Bakterien ist jedoch zum Teil sehr kritisch. So zeigen z.B. sehr {\"a}hnliche Enzyme (SULT1A2*1 und *2) deutliche Unterschiede im Expressionsniveau bei exakt gleichen {\"a}ußeren Bedingungen. Dies erschwert den Vergleich der enzymatischen Aktivit{\"a}ten dieser Enzyme im in-vitro Testsystem. Andere Enzyme (z.B. SULT2B1b) werden unter Verwendung ihrer Wildtyp-cDNA zum Teil nicht detektierbar exprimiert. Deshalb sollte in dieser Arbeit eine Methode zur Optimierung der heterologen Expression fremdstoffmetabolisierender Enzyme f{\"u}r Genotoxizit{\"a}tsuntersuchungen etabliert werden. Es wurde bereits gezeigt dass synonyme Codonaustausche am 5'-Ende der humanen SULT1A2-cDNA zu einer Erh{\"o}hung der Expression des entsprechenden Enzyms in S. typhimurium f{\"u}hrten. Dementsprechend wurden in dieser Arbeit Codonaustausche am 5'-Ende der cDNA verschiedener SULT (1A1*1, 1A2*1, 2B1b) sowie der Ratten Glutathion-S-Transferase Theta 2 (rGSTT2) und dem Reportergen Luciferase durchgef{\"u}hrt. Die Expression der so generierten Konstrukte wurde in verschiedenen S. typhimurium und E. coli St{\"a}mmen quantifiziert und die Aktivit{\"a}t der {\"u}berexprimierten Enzyme im Ames-Test bzw. im Enzym-Aktivit{\"a}tsassay {\"u}berpr{\"u}ft. Durch das Einf{\"u}hren seltener Codons in die cDNA konnte die Proteinexpression von SULT1A1*1, SULT1A2*1 und SULT2B1b maximal 7-fach, 18-fach und 100-fach im Vergleich zur Wildtyp-cDNA gesteigert werden. Die Expression der rGSTT2 wurde ebenfalls durch das Einf{\"u}hren seltener Codons erh{\"o}ht (maximal 5-fach). Bei dem Reportergen Luciferase jedoch f{\"u}hrte das Austauschen h{\"a}ufiger Codons gegen seltene Codons zu einer Reduktion der Proteinexpression um 80 \%. Die Expression von Fusionsproteinen aus 2B1b (5'-Ende) und Luciferase (3'-Ende) wurde durch das Einf{\"u}hren seltener Codons ebenfalls um 50 \% reduziert. Die S. typhimurium St{\"a}mme mit optimierter SULT 1A1*1- bzw. 1A2*1-Expression wurden im Ames-Test eingesetzt und zeigten im Vergleich zu den geringer exprimierenden St{\"a}mmen eine h{\"o}here Sensitivit{\"a}t. F{\"u}r SULT2B1b konnte keine Mutagenaktivierung im Ames-Test nachgewiesen werden. Allerdings zeigte ein Enzym-Aktivit{\"a}tsassay mit Dehydroepiandosteron, dass das bakteriell exprimierte Enzym funktionell war. Da in der Literatur der Effekt seltener Codons auf die Expression in Bakterien bisher fast ausschließlich als inhibitorisch beschrieben wurde, sollte die Wirkungsweise der hier beobachteten Expressionserh{\"o}hung durch seltene Codons genauer untersucht werden. Dazu wurden verschiedene Konstrukte der SULT1A2*1 und der SULT2B1b, die unterschiedlich viele seltene Codons in verschiedenen Kombinationen besaßen, hergestellt. Es konnten jedoch keine einzelnen Codons, die f{\"u}r die Expressionssteigerung allein verantwortlich waren, identifiziert werden. Die Plasmidkopienzahl in den verschiedenen SULT2B1b-Klonen war konstant und die SULT2B1b-mRNA-Konzentration zeigte nur moderate Schwankungen, die nicht als Ursache f{\"u}r die dramatische Erh{\"o}hung der SULT2B1b-Expression in Frage kommen. Die berechnete Stabilit{\"a}t der potentiellen mRNA-Sekund{\"a}rstrukturen wurde durch die seltenen Codons h{\"a}ufig stark gesenkt und ist als eine m{\"o}gliche Ursache f{\"u}r die Expressionssteigerung anzusehen. Zus{\"a}tzlich erh{\"o}hten die seltenen Codons den Consensus der Downstream Box zur 16S rRNA, was ebenfalls eine Ursache f{\"u}r die Expressionssteigerung sein kann. In dieser Arbeit konnte somit die Expression der humanen SULT1A1*1, 1A2*1 und der 2B1b sowie der rGSTT2 erfolgreich mittels synonymer Codonaustausche erh{\"o}ht werden. Die so optimierten S. typhimurium St{\"a}mme zeigten im Ames-Test eine erh{\"o}hte Sensitivit{\"a}t gegen{\"u}ber SULT aktivierten Promutagenen bzw. erh{\"o}hte Aktivit{\"a}t in spezifischen Enymaktivit{\"a}tsassays.},
  subject      = {Mutagenit{\"a}t},
  language  = {de}
}
@phdthesis{Barahimipour2016,
  author    = {Barahimipour, Rouhollah},
  title     = {Optimization of transgene expression in the nuclear genome of Chlamydomonas reinhardtii and characterization of Chlamydomonas expression strains},
  school      = {Universit{\"a}t Potsdam},
  pages     = {152},
  year      = {2016},
  language  = {en}
}
@phdthesis{Breitenstein2012,
  author    = {Breitenstein, Michael},
  title     = {Ortsaufgel{\"o}ster Aufbau von DNA-Nanostrukturen auf Glasoberfl{\"a}chen},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-61857},
  school      = {Universit{\"a}t Potsdam},
  year      = {2012},
  abstract  = {Im Fokus dieser Arbeit stand der Aufbau einer auf DNA basierenden Nanostruktur. Der universelle Vier-Buchstaben-Code der DNA erm{\"o}glicht es, Bindungen auf molekularer Ebene zu adressieren. Die chemischen und physikalischen Eigenschaften der DNA pr{\"a}destinieren dieses Makromolek{\"u}l f{\"u}r den Einsatz und die Verwendung als Konstruktionselement zum Aufbau von Nanostrukturen. Das Ziel dieser Arbeit war das Aufspannen eines DNA-Stranges zwischen zwei Fixpunkten. Hierf{\"u}r war es notwendig, eine Methode zu entwickeln, welche es erm{\"o}glicht, Funktionsmolek{\"u}le als Ankerelemente ortsaufgel{\"o}st auf eine Oberfl{\"a}che zu deponieren. Das Deponieren dieser Molek{\"u}le sollte dabei im unteren Mikrometermaßstab erfolgen, um den Abmaßen der DNA und der angestrebten Nanostruktur gerecht zu werden. Das eigens f{\"u}r diese Aufgabe entwickelte Verfahren zum ortsaufgel{\"o}sten Deponieren von Funktionsmolek{\"u}len nutzt das Bindungspaar Biotin-Neutravidin. Mit Hilfe eines Rasterkraftmikroskops (AFM) wurde eine zu einem „Stift" umfunktionierte Rasterkraftmikroskopspitze so mit der zu deponierenden „Tinte" beladen, dass das Absetzen von Neutravidin im unteren Mikrometermaßstab m{\"o}glich war. Dieses Neutravidinmolek{\"u}l {\"u}bernahm die Funktion als Bindeglied zwischen der biotinylierten Glasoberfl{\"a}che und dem eigentlichen Adressmolek{\"u}l. Das somit generierte Neutravidin-Feld konnte dann mit einem biotinylierten Adressmolek{\"u}l durch Inkubation funktionalisiert werden. Namensgebend f{\"u}r dieses Verfahren war die M{\"o}glichkeit, Neutravidin mehrmals zu deponieren und zu adressieren. Somit ließ sich sequenziell ein Mehrkomponenten-Feld aufbauen. Die Einschr{\"a}nkung, mit einem AFM nur eine Substanz deponieren zu k{\"o}nnen, wurde so umgangen. Ferner mußten Ankerelemente geschaffen werden, um die DNA an definierten Punkten immobilisieren zu k{\"o}nnen. Die Bearbeitung der DNA erfolgte mit molekularbiologischen Methoden und zielte darauf ab, einen DNA-Strang zu generieren, welcher an seinen beiden Enden komplement{\"a}re Adressequenzen enth{\"a}lt, um gezielt mit den oberfl{\"a}chenst{\"a}ndigen Ankerelementen binden zu k{\"o}nnen. Entsprechend der Geometrie der mit dem AFM erzeugten Fixpunkte und den oligonukleotidvermittelten Adressen kommt es zur Ausbildung einer definierten DNA-Struktur. Mit Hilfe von fluoreszenzmikroskopischen Methoden wurde die aufgebaute DNA-Nanostruktur nachgewiesen. Der Nachweis der nanoskaligen Interaktion von DNA-bindenden Molek{\"u}len mit der generierten DNA-Struktur wurde durch die Bindung von PNA (peptide nucleic acid) an den DNA-Doppelstrang erbracht. Diese PNA-Bindung stellt ihrerseits ein funktionales Strukturelement im Nanometermaßstab dar und wird als Nanostrukturbaustein verstanden.},
  language  = {de}
}
@phdthesis{Baleka2019,
  author    = {Baleka, Sina Isabelle},
  title     = {Palaeogenetic analyses of extinct Elephantidae from temperate and subtropical climates},
  school      = {Universit{\"a}t Potsdam},
  pages     = {xiii, 114},
  year      = {2019},
  language  = {en}
}
@phdthesis{Huang2021,
  author    = {Huang, Sichao},
  title     = {Past and present biodiversity in northeastern Siberia inferred from sedimentary DNA metabarcoding},
  school      = {Universit{\"a}t Potsdam},
  year      = {2021},
  abstract  = {The arctic-boreal treeline is a transition zone from taiga to tundra covering a vast area in Siberia. It often features large environmental gradients and reacts sensitively to changes in the environment. For example, the expansion of shrubs and a northward movement of the treeline are observable in Siberia as a response to the warming climate. The changes in vegetation across the treeline are known to influence the water chemistry in the lakes. This causes further alteration to the composition and diversity of sensitive aquatic organisms such as diatoms and macrophytes. Despite the rising awareness of the complex climate-feedback mechanisms of terrestrial plants, the understanding of their assembly rules and about responses of aquatic biomes in the surrounding treeline lakes is still limited. The goal of this thesis is to examine the previous and present biodiversity of terrestrial and freshwater biomes from the Siberian treeline ecotone, as well as their reactions to environmental changes. In particular, this thesis attempts to examine the performance of applying sedimentary DNA metabarcoding in terrestrial plants, aquatic macrophytes and diatoms, their spatial patterns along the environmental gradients and their temporal patterns throughout the climate transition from the late Pleistocene to Holocene. Sedimentary DNA metabarcoding combined with next-generation sequencing is applied as a primary tool to explore the composition and diversity of terrestrial plants, diatoms and aquatic macrophytes. The main study area is located in Chukotka of northeastern Siberia in the Arctic, a biodiversity hotspot due to its continental location and the diverse habitats of the glacial refugium. The modern diatom diversity was assessed with a specific diatom metabarcoding marker and morphological identification. Both approaches agree to a dominance of Fragilariaceae and Aulacoseiraceae, as well as on the environmental influential indicators of the diatom community. The high diversity of Fragilariaceae identified in the thermokarst lakes is found to follow the vegetation gradient along the treeline, suggesting that diatom metabarcoding can decipher relationships between diatom assemblage shifts and the relevant environmental changes. In particular, the metabarcoding approach detects diversification of fragilarioids in glacial lakes which is not visible using morphology. Sedimentary ancient DNA records indicate a vegetation mosaic of forb-dominated steppe-tundra during 28-19 ka, followed by a shift to dwarf-shrub tundra during 19-14 ka. During the most recent 14 thousand years, the vegetation consists of deciduous shrublands, then a change to boreal forest is observed. Investigations on the alpha diversity of the vegetation show that species richness is unexpectedly highest during pre-LGM, which is likely related to the extensive area that allows for more taxa. The optimum Holocene warming during 9-6 ka is not accompanied by a high richness as widely believed, but with an evenly distributed community by the fulfilment of erect shrubs. Furthermore, changes in taxonomic and phylogenetic diversity show complementary results in understanding community diversity. The composition and richness in the modern macrophytes community from Siberian Arctic and Chinese alpine are best co-influenced by July temperature and electrical conductivity.. Past macrophyte turnover during the late Pleistocene-Holocene is less noticeable in Siberia, whereas a pronounced community change from emergent to submerged plants is detected from Chinese alpine regions at about 14 ka due to increasing temperature and varying water conductivity. Finally, sedimentary DNA metabarcoding is a cost-effective and powerful proxy for ecological application, whereas completeness of the reference library, coverage and resolution of the metabarcoding marker are the major limitations of sedimentary DNA based diversity monitoring. The composition and richness in modern vegetation and macrophytes across broad spatial gradients is constrained by environmental variables, suggesting a potential usage for environmental monitoring. Diatom distributions are driven by different water variables along the treeline. Past records indicate that the shrub coverage has a noticeable influence on the assemblies of both terrestrial plants and aquatic macrophytes, though the shift in macrophyte community is relatively minor in the past 28 thousand years. In the long-term, the shrub expansion may eventually result in a genetically more diverse vegetation community but reduced species richness. When exceeding the optimal temperatures, further warming may lead to a decrease and putative loss of macrophytes and diatoms.},
  language  = {en}
}
@phdthesis{Nikolovski2009,
  author    = {Nikolovski, Nino},
  title     = {Pectin: New insights from an old polymer through pectinase-based genetic screens},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-35255},
  school      = {Universit{\"a}t Potsdam},
  year      = {2009},
  abstract  = {Pectic polysaccharides, a class of plant cell wall polymers, form one of the most complex networks known in nature. Despite their complex structure and their importance in plant biology, little is known about the molecular mechanism of their biosynthesis, modification, and turnover, particularly their structure-function relationship. One way to gain insight into pectin metabolism is the identification of mutants with an altered pectin structure. Those were obtained by a recently developed pectinase-based genetic screen. Arabidopsis thaliana seedlings grown in liquid medium containing pectinase solutions exhibited particular phenotypes: they were dwarfed and slightly chlorotic. However, when genetically different A. thaliana seed populations (random T-DNA insertional populations as well as EMS-mutagenized populations and natural variations) were subjected to this treatment, individuals were identified that exhibit a different visible phenotype compared to wild type or other ecotypes and may thus contain a different pectin structure (pec-mutants). After confirming that the altered phenotype occurs only when the pectinase is present, the EMS mutants were subjected to a detailed cell wall analysis with particular emphasis on pectins. This suite of mutants identified in this study is a valuable resource for further analysis on how the pectin network is regulated, synthesized and modified. Flanking sequences of some of the T-DNA lines have pointed toward several interesting genes, one of which is PEC100. This gene encodes a putative sugar transporter gene, which, based on our data, is implicated in rhamnogalacturonan-I synthesis. The subcellular localization of PEC100 was studied by GFP fusion and this protein was found to be localized to the Golgi apparatus, the organelle where pectin biosynthesis occurs. Arabidopsis ecotype C24 was identified as a susceptible one when grown with pectinases in liquid culture and had a different oligogalacturonide mass profile when compared to ecotype Col-0. Pectic oligosaccharides have been postulated to be signal molecules involved in plant pathogen defense mechanisms. Indeed, C24 showed elevated accumulation of reactive oxygen species upon pectinase elicitation and had altered response to the pathogen Alternaria brassicicola in comparison to Col-0. Using a recombinant inbred line population three major QTLs were identified to be responsible for the susceptibility of C24 to pectinases. In a reverse genetic approach members of the qua2 (putative pectin methyltransferase) family were tested for potential target genes that affect pectin methyl-esterification. The list of these genes was determined by in silico study of the pattern of expression and co-expression of all 34 members of this family resulting in 6 candidate genes. For only for one of the 6 analyzed genes a difference in the oligogalacturonide mass profile was observed in the corresponding knock-out lines, confirming the hypothesis that the methyl-esterification pattern of pectin is fine tuned by members of this gene family. This study of pectic polysaccharides through forward and reverse genetic screens gave new insight into how pectin structure is regulated and modified, and how these modifications could influence pectin mediated signalling and pathogenicity.},
  language  = {en}
}
@phdthesis{Kubsch2017,
  author    = {Kubsch, Bastian},
  title     = {Phase-specific fusion between biomembranes using SNARE mimetics},
  school      = {Universit{\"a}t Potsdam},
  pages     = {95},
  year      = {2017},
  language  = {en}
}
@phdthesis{Devers2011,
  author    = {Devers, Emanuel},
  title     = {Phosphate homeostasis and novel microRNAs are involved in the regulation of the arbuscular mycorrhizal symbiosis in Medicago truncatula},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-55572},
  school      = {Universit{\"a}t Potsdam},
  year      = {2011},
  abstract  = {Die arbuskul{\"a}re Mykorrhiza ist die wahrscheinlich {\"a}lteste Form der Wurzelsymbiosen zwischen Pflanzen und Pilzen und hat sich vor 420 Millionen Jahren entwickelt. In dieser Symbiose, die zwischen nahezu allen Landpflanzen und Pilzen des Reiches Glomeromycota ausgebildet wird, versorgt der Pilz die Pflanze mit N{\"a}hrstoffen, wobei die verbesserte Versorgung mit Phosphat f{\"u}r die Pflanze sicher den gr{\"o}ßten Vorteil darstellt. Im Gegenzug erh{\"a}lt der Pilz Zucker, welche die Pflanze aus der Photosynthese bereitstellt. Zu hohe Phosphatkonzentrationen im Boden oder D{\"u}nger f{\"u}hren allerdings zu einer Verringerung in der Auspr{\"a}gung der arbuskul{\"a}ren Mykorrhiza. Diese Unterdr{\"u}ckung der Symbiose wird nicht durch eine lokale Reaktion der Wurzeln ausgel{\"o}st, sondern in erster Linie durch einen hohen Phosphatgehalt im Pflanzenspross. Somit handelt es sich also um eine systemische, also dem Gesamtsystem „Pflanze" betreffende Antwort. Die molekularen Mechanismen dieser Anpassung sind noch wenig bekannt und sind vor allem f{\"u}r die Agrarwirtschaft von besonderem Interesse. Eine Mikro-RNA (miRNA) des bereits bekannten Phosphathom{\"o}ostasesignalwegs (PHR1-miRNA399-PHO2 Signalweg) akkumuliert verst{\"a}rkt in mykorrhizierten Wurzeln. Das deutet daraufhin, dass dieser Signalweg und diese miRNA eine wichtige Rolle in der Regulation der arbuskul{\"a}ren Mykorrhiza spielen. Ziel dieser Studie war es neue Einblicke in die molekularen Mechanismen, die zur Unterdr{\"u}ckung der arbuskul{\"a}ren Mykorrhiza bei hohen Phosphatkonzentrationen f{\"u}hren, zu gewinnen. Dabei sollte der Einfluss von PHO2, sowie von miRNAs in dieser Symbiose genauer untersucht werden. Ein funktionelles Ortholog von PHO2, MtPho2, wurde in der Pflanze Medicago truncatula identifiziert. MtPho2-Mutanten, welche nicht mehr in der Lage waren ein funktionales PHO2 Protein zu exprimieren, zeigten schnellere Kolonisierung durch den AM-Pilz. Jedoch wurde auch in den mtpho2-Mutanten die Symbiose durch hohe Phosphatkonzentrationen unterdr{\"u}ckt. Dies bedeutet, dass PHO2 und somit der PHR1-miRNA399-PHO2 Signalweg eine wichtige Funktion w{\"a}hrend der fortschreitenden Kolonisierung der Wurzel durch den Pilz hat, aber und weitere Mechanismen in der Unterd{\"u}ckung der Symbiose bei hohen Phosphatkonzentrationen beteiligt sein m{\"u}ssen. Die Analyse von Transkriptionsprofilen von Spross- und Wurzeln mittels Microarrays zeigte, dass die Unterdr{\"u}ckung der AM Symbiose durch hohe Phosphatkonzentrationen m{\"o}glicherweise auf eine Unterdr{\"u}ckung der Expression einer Reihe symbiosespezifischer Gene im Spross der Pflanze beruht. Um die Rolle weiterer miRNA in der AM Symbiose zu untersuchen, wurden mittels einer Hochdurchsatz-Sequenzierung 243 neue und 181 aus anderen Pflanzen bekannte miRNAs in M. truncatula entdeckt. Zwei dieser miRNAs, miR5229 und miR160f*, sind ausschließlich w{\"a}hrend der arbuskul{\"a}ren Mykorrhiza zu finden und weitere miRNAs werden w{\"a}hrend dieser Symbiose verst{\"a}rkt gebildet. Interessanterweise f{\"u}hren einige dieser miRNAs zum Abbau von Transkripten, die eine wichtige Funktion in der arbuskul{\"a}ren Mykorrhiza und Wurzelkn{\"o}llchensymbiose besitzen. Die Ergebnisse dieser Studie liefern eine neue Grundlage f{\"u}r die Untersuchung von regulatorischen Netzwerken, die zur zellul{\"a}ren Umprogrammierung w{\"a}hrend der Interaktion zwischen Pflanzen und arbuskul{\"a}ren Mykorrhiza-Pilzen bei verschiedenen Phosphatbedingungen f{\"u}hren.},
  language  = {en}
}
@phdthesis{Branscheid2012,
  author    = {Branscheid, Anja},
  title     = {Phosphate homeostasis and posttranscriptional gene regulation during arbuscular mycorrhizal symbiosis in Medicago truncatula},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-62106},
  school      = {Universit{\"a}t Potsdam},
  year      = {2012},
  abstract  = {Since available phosphate (Pi) resources in soil are limited, symbiotic interactions between plant roots and arbuscular mycorrhizal (AM) fungi are a widespread strategy to improve plant phosphate nutrition. The repression of AM symbiosis by a high plant Pi-status indicates a link between Pi homeostasis signalling and AM symbiosis development. This assumption is supported by the systemic induction of several microRNA399 (miR399) primary transcripts in shoots and a simultaneous accumulation of mature miR399 in roots of mycorrhizal plants. However, the physiological role of this miR399 expression pattern is still elusive and offers the question whether other miRNAs are also involved in AM symbiosis. Therefore, a deep sequencing approach was applied to investigate miRNA-mediated posttranscriptional gene regulation in M. truncatula mycorrhizal roots. Degradome analysis revealed that 185 transcripts were cleaved by miRNAs, of which the majority encoded transcription factors and disease resistance genes, suggesting a tight control of transcriptional reprogramming and a downregulation of defence responses by several miRNAs in mycorrhizal roots. Interestingly, 45 of the miRNA-cleaved transcripts showed a significant differentially regulated between mycorrhizal and non-mycorrhizal roots. In addition, key components of the Pi homeostasis signalling pathway were analyzed concerning their expression during AM symbiosis development. MtPhr1 overexpression and time course expression data suggested a strong interrelation between the components of the PHR1-miR399-PHO2 signalling pathway and AM symbiosis, predominantly during later stages of symbiosis. In situ hybridizations confirmed accumulation of mature miR399 in the phloem and in arbuscule-containing cortex cells of mycorrhizal roots. Moreover, a novel target of the miR399 family, named as MtPt8, was identified by the above mentioned degradome analysis. MtPt8 encodes a Pi-transporter exclusively transcribed in mycorrhizal roots and its promoter activity was restricted to arbuscule-containing cells. At a low Pi-status, MtPt8 transcript abundance inversely correlated with a mature miR399 expression pattern. Increased MtPt8 transcript levels were accompanied by elevated symbiotic Pi-uptake efficiency, indicating its impact on balancing plant and fungal Pi-acquisition. In conclusion, this study provides evidence for a direct link of the regulatory mechanisms of plant Pi-homeostasis and AM symbiosis at a cell-specific level. The results of this study, especially the interaction of miR399 and MtPt8 provide a fundamental step for future studies of plant-microbe-interactions with regard to agricultural and ecological aspects.},
  language  = {en}
}
@phdthesis{Nitschke2013,
  author    = {Nitschke, Felix},
  title     = {Phosphorylation of polyglycans, especially glycogen and starch},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-67396},
  school      = {Universit{\"a}t Potsdam},
  year      = {2013},
  abstract  = {Functional metabolism of storage carbohydrates is vital to plants and animals. The water-soluble glycogen in animal cells and the amylopectin which is the major component of water-insoluble starch granules residing in plant plastids are chemically similar as they consist of α-1,6 branched α-1,4 glucan chains. Synthesis and degradation of transitory starch and of glycogen are accomplished by a set of enzymatic activities that to some extend are also similar in plants and animals. Chain elongation, branching, and debranching are achieved by synthases, branching enzymes, and debranching enzymes, respectively. Similarly, both types of polyglucans contain low amounts of phosphate esters whose abundance varies depending on species and organs. Starch is selectively phosphorylated by at least two dikinases (GWD and PWD) at the glucosyl carbons C6 and C3 and dephosphorylated by the phosphatase SEX4 and SEX4-like enzymes. In Arabidopsis insufficiency in starch phosphorylation or dephosphorylation results in largely impaired starch turnover, starch accumulation, and often in retardation of growth. In humans the progressive neurodegenerative epilepsy, Lafora disease, is the result of a defective enzyme (laforin) that is functional equivalent to the starch phosphatase SEX4 and capable of glycogen dephosphorylation. Patients lacking laforin progressively accumulate unphysiologically structured insoluble glycogen-derived particles (Lafora bodies) in many tissues including brain. Previous results concerning the carbon position of glycogen phosphate are contradictory. Currently it is believed that glycogen is esterified exclusively at the carbon positions C2 and C3 and that the monophosphate esters, being incorporated via a side reaction of glycogen synthase (GS), lack any specific function but are rather an enzymatic error that needs to be corrected. In this study a versatile and highly sensitive enzymatic cycling assay was established that enables quantification of very small G6P amounts in the presence of high concentrations of non-target compounds as present in hydrolysates of polysaccharides, such as starch, glycogen, or cytosolic heteroglycans in plants. Following validation of the G6P determination by analyzing previously characterized starches G6P was quantified in hydrolysates of various glycogen samples and in plant heteroglycans. Interestingly, glucosyl C6 phosphate is present in all glycogen preparations examined, the abundance varying between glycogens of different sources. Additionally, it was shown that carbon C6 is severely hyperphosphorylated in glycogen of Lafora disease mouse model and that laforin is capable of removing C6 phosphate from glycogen. After enrichment of phosphoglucans from amylolytically degraded glycogen, several techniques of two-dimensional NMR were applied that independently proved the existence of 6-phosphoglucosyl residues in glycogen and confirmed the recently described phosphorylation sites C2 and C3. C6 phosphate is neither Lafora disease- nor species-, or organ-specific as it was demonstrated in liver glycogen from laforin-deficient mice and in that of wild type rabbit skeletal muscle. The distribution of 6-phosphoglucosyl residues was analyzed in glycogen molecules and has been found to be uneven. Gradual degradation experiments revealed that C6 phosphate is more abundant in central parts of the glycogen molecules and in molecules possessing longer glucan chains. Glycogen of Lafora disease mice consistently contains a higher proportion of longer chains while most short chains were reduced as compared to wild type. Together with results recently published (Nitschke et al., 2013) the findings of this work completely unhinge the hypothesis of GS-mediated phosphate incorporation as the respective reaction mechanism excludes phosphorylation of this glucosyl carbon, and as it is difficult to explain an uneven distribution of C6 phosphate by a stochastic event. Indeed the results rather point to a specific function of 6-phosphoglucosyl residues in the metabolism of polysaccharides as they are present in starch, glycogen, and, as described in this study, in heteroglycans of Arabidopsis. In the latter the function of phosphate remains unclear but this study provides evidence that in starch and glycogen it is related to branching. Moreover a role of C6 phosphate in the early stages of glycogen synthesis is suggested. By rejecting the current view on glycogen phosphate to be a stochastic biochemical error the results permit a wider view on putative roles of glycogen phosphate and on alternative biochemical ways of glycogen phosphorylation which for many reasons are likely to be mediated by distinct phosphorylating enzymes as it is realized in starch metabolism of plants. Better understanding of the enzymology underlying glycogen phosphorylation implies new possibilities of Lafora disease treatment.},
  language  = {en}
}
@phdthesis{Orf2016,
  author    = {Orf, Isabel},
  title     = {Photorespiratory metabolism in the cyanobacterial model Synechocystis sp. strain PCC 6803},
  school      = {Universit{\"a}t Potsdam},
  pages     = {90},
  year      = {2016},
  language  = {en}
}
@phdthesis{Kappel2023,
  author    = {Kappel, Sandrine},
  title     = {Photosynthesis in fluctuating light},
  school      = {Universit{\"a}t Potsdam},
  pages     = {172},
  year      = {2023},
  abstract  = {Light is the essential energy source for plants to drive photosynthesis. In nature, light availability is highly variable and often fluctuates on very short time scales. As a result, plants developed mechanisms to cope with these fluctuations. Understanding how to improve light use efficiency in natural fluctuating light (FL) conditions is a major target for agronomy. In the first project, we identified an Arabidopsis thaliana plant that showed reduced levels of rapidly inducible non-photochemical quenching (NPQ). This plant was devoid of any T-DNA insertion. Using a mapping-by-sequencing approach, we successfully located the causal genomic region near the end of chromosome 4. Through variant investigations in that region, we identified a deletion of about 20 kb encompassing 9 genes. By complementation analysis, we confirmed that one of the deleted genes, VTC2, is the causal gene responsible for the low NPQ. Loss of VTC2 decreased NPQ particularly in old leaves, with young leaves being only slightly affected. Additionally, ascorbate levels were almost abolished in old leaves, likely causing the NPQ decrease by reducing the activity of the xanthophyll cycle. Although ascorbate levels in younger leaves were reduced compared to wild-type plants, they remained at a comparably higher level. This difference may be due to the VTC2 paralog VTC5, which is expressed at a higher level in young leaves than in old ones. Plants require the PROTON GRADIENT REGULATION 5 (PGR5) protein for survival in FL. pgr5 mutants die because they fail to increase the luminal proton concentration in response to high light (HL) phases. A rapid elevation in ∆pH is needed to slow down electron transport through the Cytochrome b6 f complex (photosynthetic control). In FL, such lack of control in the pgr5 mutants results in photosystem I (PSI) overreduction, reactive oxygen species (ROS) production, and cell death. Decreases in photosystem II (PSII) activity introduced by crossing pgr5 with PSII deficient mutants rescued the lethality of pgr5 in FL. PGR5 was suggested to act as part of the ferredoxin-plastoquinone reductase (FQR), involved in cyclic electron transfer around PSI. However, the proposed molecular role of PGR5 remains highly debated. To learn more about PGR5 function, we performed a forward genetic screen in Arabidopsis thaliana to identify EMS-induced suppressor mutants surviving longer when grown in FL compared to pgr5 mutants (referred to as "suppressor of pgr5 lethality in fluctuating light", splf ). 11 different candidate genes were identified in a total of 22 splf plants. Mutants of seven of these genes in the pgr5 background showed low Fv/Fm values when grown in non-fluctuating low light (LL). Five of these 4genes were previously reported to have a role in PSII biogenesis or function. Two others, RPH1 and a DEAD/DEAH box helicase (AT3G02060), have not been linked to PSII function before. Three of splf candidate genes link to primary metabolism, fructose-2,6-bisphosphatase (F2KP ), udp-glucose pyrophosphorylase 1 (UGP1 ) and ferredoxin-dependent glutamate synthase (Fd-GOGAT ). They are characterized by the fact that they survive longer in FL than pgr5 mutants but do not procede beyond the early vegetative phase and then die.},
  language  = {en}
}