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RNA hat neben der Rolle als Informationsüberträger wichtige Aufgaben in regulatorischen Prozessen. Sie kann komplexe Strukturen ausbilden und ähnlich wie Proteine Liganden binden oder enzymatische Reaktionen katalysieren. Im Rahmen dieser Arbeit sollten zwei Beispiele von RNA-Liganden-Interaktionen untersucht werden. Im ersten Abschnitt wurde die Interaktion des TetR-bindenden Aptamers 12-1 mit dem Tetracyclin-Repressorprotein (TetR) biochemisch charakterisiert. Über Gelverzögerungs- experimente wurde gezeigt, dass das Aptamer 12-1K delta A TetR mit hoher Affinität und Spezifität bindet. Es wurde ein KD von 22 nM bestimmt. Die Bindung ist dabei ebenso stark wie die Bindung von TetR an die Operatorsequenz tetO. In Anwesenheit von Tetracyclin (Tc) nimmt die Affinität des TetR/Aptamer-Komplexes um das sechsfache ab. Des Weiteren konnten die Bindeepitope des Aptamers durch eine Analyse von verschiedenen TetR-Mutanten im DNA-Bindebereich bestimmt werden. Die Aminosäuren T27, N47 und K48 sind dabei essentiell für die RNA-Bindung und führen bei einem Austausch zum Verlust der RNA-Bindung. Der Bindebereich des Aptamers überlappt mit Aminosäureresten, die für die tetO-Bindung essentiell sind. Die Stöchiometrie der TetR/Aptamer-Bindung wurde durch LILBID-Messungen auf eine molare Verteilung von 2:1 festgelegt. Ein TetR-Dimer bindet dabei ein Aptamermolekül. Durch die umfassende biochemische Analyse der TetR/Aptamer-Bindung kann das Aptamer 12-1 nun als Expressionssonde für RNAs in bakteriellen Zellen genutzt werden. Des Weiteren kann das Aptamer als alternativer, artifizieller Transkriptionsregulator im tet on / tet off-System verwendet werden. Im zweiten Teil der Arbeit sollten miRNAs identifiziert werden, die an der posttrans- kriptionellen Regulation der 5-Lipoxygenase (5-LO) und der Cyclooxygenase-2 (COX-2) beteiligt sind. Mit bioinformatischen Vorhersageprogrammen wurden die 3’-UTR- Bereiche von 5-LO und COX-2 nach putativen Bindestellen abgesucht. Im Fall der 5-LO wurden durch eine zusätzliche Microarray-Expressionsanalyse miRNAs ausgewählt, welche in 5-LO positiven Zellen hoch exprimiert sind und Bindestellen im 3’-UTR aufweisen. Es konnten verschiedene miRNAs detektiert werden, jedoch keine Regulation der 5-LO Aktivität beobachtet werden. Für COX-2 wurde neben der Suche nach putativen miRNA-Bindestellen zudem die Stabilität des 3’-UTR untersucht. Mit Hilfe des auf Perl basierenden Programms SignificanceScoreAssignment (Florian Groher, Diplomarbeit 2011) konnte der 3’-UTR von COX-2 als generell destabilisierend analysiert werden. In Colonkarzinom- spezifischen HT-29-Zellen wurden miRNAs untersucht, welche Bindestellen im 3’-UTR von COX-2 aufweisen. In diesem Kontext sollte der Einfluss einer Interaktion von HT- 29-Zellen mit aktivierten Thrombozyten sowie daraus isolierten Bestandteilen wie Mikropartikeln und PDGF analysiert werden. MiR-16, miR-26b, miR-199a und miR- 199a* konnten in HT-29-Zellen nachgewiesen werden. Bei einer Stimulation von HT-29- Zellen mit PDGF-BB werden miR-16 und miR-26b konzentrationsabhängig stärker exprimiert, während die Expression von miR-199a und miR-199a* signifikant abnimmt. Eine direkte Regulation von COX-2 durch die untersuchten miRNAs konnte durch Überexpressions- und Reportergenanalysen jedoch nicht festgestellt werden. Die Analysen der 5-LO- und COX-2-Regulation durch miRNAs stellen Vorarbeiten dar. Die etablierten Methoden können nun für eine detaillierte Betrachtung weiterer miRNAs verwendet werden.
Unmasking a temperature-dependent effect of the P. anserina i-AAA protease on aging and development
(2011)
Different molecular pathways involved in maintaining mitochondrial function are of fundamental importance to control cellular homeostasis. Mitochondrial i-AAA protease is part of such a surveillance system, and PaIAP is the putative ortholog in the fungal aging model Podospora anserina. Here, we investigate the role of PaIAP in aging and development. Deletion of the gene encoding PaIAP resulted in a specific phenotype. When incubated at 27°C, spore germination and fruiting body formation are not different from that of the corresponding wild-type strain. Unexpectedly, the lifespan of the deletion strain is strongly increased. In contrast, cultivation at an elevated temperature of 37°C leads to impairments in spore germination and fruiting body formation and to a reduced lifespan. The higher PaIAP abundance in wild-type strains of the fungus grown at elevated temperature and the phenotype of the deletion strain unmasks a temperature-related role of the protein. The protease appears to be part of a molecular system that has evolved to allow survival under changing temperatures, as they characteristically occur in nature.
Axonal growth is essential for establishing neuronal circuits during brain development and for regenerative processes in the adult brain. Unfortunately, the extracellular signals controlling axonal growth are poorly understood. Here we report that a reduction in extracellular ATP levels by tissue-nonspecific alkaline phosphatase (TNAP) is essential for the development of neuritic processes by cultured hippocampal neurons. Selective blockade of TNAP activity with levamisole or specific TNAP knockdown with short hairpin RNA interference inhibited the growth and branching of principal axons, whereas addition of alkaline phosphatase (ALP) promoted axonal growth. Neither activation nor inhibition of adenosine receptors affected the axonal growth, excluding the contribution of extracellular adenosine as a potential hydrolysis product of extracellular ATP to the TNAP-mediated effects. TNAP was colocalized at axonal growth cones with ionotropic ATP receptors (P2X7 receptor), whose activation inhibited axonal growth. Additional analyses suggested a close functional interrelation of TNAP and P2X7 receptors whereby TNAP prevents P2X7 receptor activation by hydrolyzing ATP in the immediate environment of the receptor. Furthermore inhibition of P2X7 receptor reduced TNAP expression, whereas addition of ALP enhanced P2X7 receptor expression. Our results demonstrate that TNAP, regulating both ligand availability and protein expression of P2X7 receptor, is essential for axonal development.
Sponges are one of the major components of benthic communities and are considered to be a
key role organism in marine ecosystems. In addition to their importance in terms of
biodiversity, sponges are becoming increasingly attractive to the industry, as they themselves
or associated symbionts, produce various kinds of secondary metabolites of pharmaceutical
properties. Some of them have already been clinically applied.
The taxonomic characters of Porifera are limited to only a few morphological and
histological characters. In addition, sponges of the same species often show a wide
morphological variability, whereas the latter depends on different ecological parameters such
as water depth and current conditions. Thus, the taxonomic classification of sponges often
becomes a scientific challenge.
The fauna of the Yellow Sea rates among the least studied worldwide. At the same time,
according to the UN Atlas of the Ocean, the Yellow Sea is one of the most intensively
exploited marine areas in the world. This is not least due to the dense human population living
in the entire catchment area of the Yellow Sea region. In order to compile medium- and longterm
conclusions about the anthropogenic impact on biota of the Yellow Sea, the knowledge
of species and their distribution is of crucial importance, as these data form the baseline for all
future conservation efforts.
Until now the sponge fauna of the Chinese Yellow Sea is insufficiently investigated.
Thus, there is only one publication on sponges from this region that has been released
hitherto. This paper is dealing with only a view species. However, there is no reference
concerning the present location of the voucher material, on which this publication is based on.
Consequently, no scientific collection on Porifera from the Chinese part of the Yellow Sea
exists to date.
In order to compile a documentation of the recent sponge community of the Chinese
Yellow Sea, 12 study sites along the coast of the Liaoning Peninsula, China, Northeast
Yellow Sea, were investigated with focus on sponge distribution. The corresponding habitats
were characterized in regard to their topographical features, abiotic parameters, and common
composition of benthic megafaunal and macroalgal assemblages.
Due to the lack of comparable studies, a comprehensive literature research on sponges of the
shallow Northwest Pacific Ocean was required. As a result the first compilation of
publications is presented, dealing with sponges from shallow depths of the northwestern
Pacific Ocean.
Abstract
2
In the course of this study, 31 sponge species in total were recorded, which are scientifically
processed. With the exception of four all specimens were determined to species- level.
Twelve out of the total number of species are new to science and are described and classified
according to the recent taxonomic system of the phylum Porifera.
The results of this study indicate considerable differences in species composition between
investigated sites. It is shown that physical factors (particularly current regime, sedimentation,
seasonally related variations in temperatures), as well the availability of suitable substrates are
directly related to the diversity and abundance of investigated sponge communities. In this
context possible adaptation strategies of the corresponding sponges were discussed in detail.
Two sponge species, Clathria (Clathria) asodes and Antho (Acarnia) lithophoenix, formerly
known exclusively from the northeastern Pacific Ocean, are now recorded from the Northwest
Pacific Ocean for the first time. Furthermore, Penares hongdoensis, Clathria (Clathria)
hongdoensis and Celtodoryx girardae were synonymized with Penares cortius, Clathria
(Clathria) acanthostyli, and Celtodoryx ciocalyptoides respectively. Moreover, the occurrence
of eight sponge species, which were known from previous records from the Yellow Sea, could
be confirmed.
As a result of this study the Asian origin of a sponge species that is invasive to the French and
Dutch coasts of the Northeast Atlantic Ocean since the 1990s could be established. Moreover,
it is demonstrated that Celtodoryx girardae from the northeastern Atlantic is in fact
conspecific with Cornulum ciocalyptoides described by Burton (1935) from the Posiet Bay,
Sea of Japan. Apart from taxonomic remarks, variations between populations from both
oceans are examined and discussed thoroughly in regard to possible ecological implications.
The community of documented sponges shows overlapping with the one from the Sea of
Japan. According to the results it is assumed that the endemic degree of the sponges from the
Chinese Yellow Sea is rather low to moderate.
The material obtained in the course of this study was integrated in the collection of the
Senckenbergischen Naturforschenden Sammlungen. Therefore, it is the first scientific
collection of sponges from the Chinese Yellow Sea that can be consulted as a basis for all
further studies on sponges of this region.
The present study is the only investigation of sponges from Dalian and adjacent waters before
the spill occurred in the Dalian harbour in July 2010. Therefore, it provides an essential
baseline needed to assess the impact of the oil spill on benthic communities.
Background: The combination of high-throughput transcript profiling and next-generation sequencing technologies is a prerequisite for genome-wide comprehensive transcriptome analysis. Our recent innovation of deepSuperSAGE is based on an advanced SuperSAGE protocol and its combination with massively parallel pyrosequencing on Roche's 454 sequencing platform. As a demonstration of the power of this combination, we have chosen the salt stress transcriptomes of roots and nodules of the third most important legume crop chickpea (Cicer arietinum L.). While our report is more technology-oriented, it nevertheless addresses a major world-wide problem for crops generally: high salinity. Together with low temperatures and water stress, high salinity is responsible for crop losses of millions of tons of various legume (and other) crops. Continuously deteriorating environmental conditions will combine with salinity stress to further compromise crop yields. As a good example for such stress-exposed crop plants, we started to characterize salt stress responses of chickpeas on the transcriptome level. Results: We used deepSuperSAGE to detect early global transcriptome changes in salt-stressed chickpea. The salt stress responses of 86,919 transcripts representing 17,918 unique 26bp deepSuperSAGE tags (UniTags) from roots of the salt-tolerant variety INRAT-93 two hours after treatment with 25 mM NaCl were characterized. Additionally, the expression of 57,281 transcripts representing 13,115 UniTags was monitored in nodules of the same plants. From a total of 144,200 analyzed 26bp tags in roots and nodules together, 21,401 unique transcripts were identified. Of these, only 363 and 106 specific transcripts, respectively, were commonly up- or down-regulated (>3.0-fold) under salt stress in both organs, witnessing a differential organ-specific response to stress. Profiting from recent pioneer works on massive cDNA sequencing in chickpea, more than 9,400 UniTags were able to be linked to UniProt entries. Additionally, gene ontology (GO) categories over-representation analysis enabled to filter out enriched biological processes among the differentially expressed UniTags. Subsequently, the gathered information was further cross-checked with stress-related pathways. From several filtered pathways, here we focus exemplarily on transcripts associated with the generation and scavenging of reactive oxygen species (ROS), as well as on transcripts involved in Na+ homeostasis. Although both processes are already very well characterized in other plants, the information generated in the present work is of high value. Information on expression profiles and sequence similarity for several hundreds of transcripts of potential interest is now available. Conclusions: This report demonstrates, that the combination of the high-throughput transcriptome profiling technology SuperSAGE with one of the next-generation sequencing platforms allows deep insights into the first molecular reactions of a plant exposed to salinity. Cross validation with recent reports enriched the information about the salt stress dynamics of more than 9,000 chickpea ESTs, and enlarged their pool of alternative transcripts isoforms. As an example for the high resolution of the employed technology that we coin deepSuperSAGE, we demonstrate that ROS-scavenging and -generating pathways undergo strong global transcriptome changes in chickpea roots and nodules already 2 hours after onset of moderate salt stress (25mM NaCl). Additionally, a set of more than 15 candidate transcripts are proposed to be potential components of the salt overly sensitive (SOS) pathway in chickpea. Newly identified transcript isoforms are potential targets for breeding novel cultivars with high salinity tolerance. We demonstrate that these targets can be integrated into breeding schemes by micro-arrays and RT-PCR assays downstream of the generation of 26bp tags by SuperSAGE.
The role of small leucine-rich proteoglycans, biglycan and decorin, in podocytopathy and albuminuria
(2011)
Biglycan is a member of the small leucine-rich proteoglycan (SLRP) family and is involved in the assembly of extracellular matrix components. In macrophages soluble biglycan acts as an endogenous ligand of the innate immunity receptors TLR2 and TLR4. Data addressing the role of biglycan in renal pathology are surprisingly limited. In a normal kidney, biglycan is expressed mainly in the tubulointerstitium; however, in the course of various renal diseases its expression may be altered. The biological role and mechanisms of biglycan action in the pathology of renal diseases, especially those affecting glomeruli, remain poorly understood.
Albuminuria is the first detectable clinical abnormality in diabetic nephropathy. In this study we detected increased biglycan mRNA expression in glomeruli of renal biopsies of patients with incipient diabetic nephropathy, with predominant localization in podocytes. This novel finding raised the question about the role and mechanisms of biglycan action in diabetic podocyte injury and whether the mechanisms of biglycan signaling causing podocyte injury and albuminuria could be extrapolated to other glomerular diseases.
To investigate the role of biglycan in the cause of diabetic podocyte injury and albuminuria we used the murine model of STZ-induced diabetic nephropathy and wild type (Bgn+/0) and biglycan deficient (Bgn-/0) mice. We observed that biglycan was expressed on mRNA and protein levels in podocytes of diabetic Bgn+/0 mice and that diabetic Bgn+/0 mice also had significantly higher albuminuria compared to non-diabetic mice 6 and 12 weeks after disease induction. Biglycan deficiency was shown to be an important factor in albuminuria development. Namely, we observed that diabetic Bgn-/0 mice had significantly lower levels of urinary albumin compared to diabetic Bgn+/0 mice. We showed that less severe podocyte loss in the urine of diabetic Bgn-/0 mice was associated with significantly higher nephrin and podocin glomerular expression compared to diabetic Bgn+/0 mice. Our data suggested that biglycan deficiency was protective against podocyte loss into urine and might be beneficial against development of albuminuria in diabetes.
Biglycan contributed to podocyte actin rearrangement due to increased phosphorylation of Rac1 in vitro. Furthermore, biglycan induced caspase-3 activity and production of reactive oxygen species (ROS), thus enhancing apoptosis in cultured podocytes. Biglycan-induced ROS generation was TLR2/TLR4-dependent. Overexpression of soluble biglycan in wild type mice induced albuminuria under normal conditions and significantly increased albuminuria under pathological conditions (murine model of LPS-induced albuminuria). Inhibition of Rac1 activity in vivo decreased the albuminuria induced by biglycan overexpression. In patients with glomerular diseases, biglycan was detected in urine and was associated with nephrin appearance in the urine of these patients and with increased albuminuria. Collectively, our results elucidate a novel mechanism for biglycan-induced TLR2- and TLR4-dependent, Rac1- and ROS-mediated podocytopathy leading to podocyturia, albuminuria development and progression of glomerular diseases. Interfering with biglycan actions and blocking its signaling via TLR2 and TLR4 might be a potential therapeutic strategy against these diseases. To achieve this goal, the specific mechanisms for binding of biglycan to TLR2 and TLR4 must be elucidated and effective ways of preventing this binding must be developed. Nevertheless, biglycan remains the “danger signal” that activates innate immune receptors in non-immune cells and triggers the deleterious mechanisms leading to aggravation of renal injury.
The avian magnetic compass was analyzed by testing migratory birds, using their orientation as an indicator. These tests revealed some remarkable properties of the avian magnetic compass: (1) It is an inclination compass’, (2) it is light-dependent, with (3) receptors located in the right eye. These characteristics are in agreement with the Radical Pair model proposed by Ritz et al. (2000). Using the same experimental set-up, we tested the model by behavioral spectroscopy’, exposing migratory birds to radiofrequency fields of different frequencies and intensities. Such fields affected the orientation only when applied at an angle to the field lines. Tests with different frequencies led to an estimate of the life time of the crucial radical pair between 2-10 μs. We also could identify an extremely sensitive resonance at the Larmor frequency, which implies specific properties of the radical pair. Cryptochromes, a blue-light absorbing photopigment, has been proposed to be the receptor-molecule; it has been found to be present in the retina of birds.
Members of the genus Xenorhabdus are entomopathogenic bacteria that associate with nematodes. The nematode-bacteria pair infects and kills insects, with both partners contributing to insect pathogenesis and the bacteria providing nutrition to the nematode from available insect-derived nutrients. The nematode provides the bacteria with protection from predators, access to nutrients, and a mechanism of dispersal. Members of the bacterial genus Photorhabdus also associate with nematodes to kill insects, and both genera of bacteria provide similar services to their different nematode hosts through unique physiological and metabolic mechanisms. We posited that these differences would be reflected in their respective genomes. To test this, we sequenced to completion the genomes of Xenorhabdus nematophila ATCC 19061 and Xenorhabdus bovienii SS-2004. As expected, both Xenorhabdus genomes encode many anti-insecticidal compounds, commensurate with their entomopathogenic lifestyle. Despite the similarities in lifestyle between Xenorhabdus and Photorhabdus bacteria, a comparative analysis of the Xenorhabdus, Photorhabdus luminescens, and P. asymbiotica genomes suggests genomic divergence. These findings indicate that evolutionary changes shaped by symbiotic interactions can follow different routes to achieve similar end points.
Protein translocation across the chloroplast membrane is mediated by molecular machinery composed of protein complexes termed the TOC/TIC (the outer/inner envelope chloroplasts translocases). This translocation process is regulated by metabolic energy in form of GTP and ATP and is influenced by the lipid composition of the membrane. The ability to study the function of a single complex “TOC” in vitro using purified protein or purified chloroplast outer envelope vesicles has been instrumental for our understanding of the mechanism underlying this process.
Indeed, the TOC complex has been purified by previously established procedures. However its functional and structural analyses are impaired by the limited yield of purified protein. Therefore, protocols for native TOC complex purification are described here. The complex isolation is achieved by direct biochemical treatment of biological membrane hosting this complex or by tandem affinity purification of modified protein complex components from generated transgenic plants.
Furthermore, in this thesis, radioactive based in vitro import assays are described, namely those that allow monitoring translocation activity across the outer envelope of chloroplast. Based on the analysis of knock-out plants and isolated complexes it was previously suggested that lipid dependence of protein translocation might exist. Thus, the question was raised whether the lipid composition of the membrane has a direct influence on the behavior and functionality of the TOC translocon, or whether additional components of the chloroplast membrane account for the observed effect in vivo. To answer this question, a technique for vesicle fusion was developed. The principal aim was to explore the effect of an exchange of the lipid environment surrounding the complex translocon. This method helped to demonstrate that the SQDG and PI act stimulatory on the translocation across the outer envelope of chloroplast, whereas DGDG exhibits an inhibitory effect on TOC complex functionality.
Capoeta damascina (Teleostei: Cyprinidae) is one of the most common freshwater fish species, found throughout the Levant, Mesopotamia, Turkey and Iran. According to the state of knowledge prior to this study, C. damascina, which is distributed over a wide range of isolated water bodies, was not a well-defined species. It was questionable whether it represents a single species or a complex of closely related species with high intraspecific and comparatively low interspecific variability. The goal of this study was to investigate the taxonomy, systematic position of the C. damascina species complex and the phylogenetic relationships among its members, based on morphological features as well as molecular phylogeny. Samples obtained from throughout the geographic range of this species complex were subjected to comparative morphological analyses in order to define, properly diagnose and separate species within the C. damascina complex. To elucidate phylogenetic relationships among members of the C. damascina species complex, samples were subjected to genetic analyses, using two molecular markers targeting the mitochondrial cytochrome oxidase I (COI, n = 103) and the two adjacent divergence regions (D1-D2) of the nuclear 28S rRNA genes (LSU, n = 65). Based on morphological and molecular genetic data, six closely related species were recognized within the C. damascina complex: C. buhsei, C. caelestis, C. damascina, C. saadii, C. umbla and an undescribed species, Capoeta sp.1. Analyses of the morphometric and meristic data obtained in this study revealed phenotypic variability among the various populations within a species and among the different species. Such differences in morphological characters reflect genetic differences, environmentally induced phenotypic variation or both, as the meristic phenotype of fish is sometimes a consequence of environmental parameters acting on the genotype. Based on phylogenetic analyses, two main lineages were identified within the C. damascina species complex: a western lineage represented by C. caelestis, C. damascina and C. umbla and an eastern lineage represented by C. buhsei, C. saadii and Capoeta sp.1. The close phylogenetic relationships between C. damascina and C. umbla and the sharing of same haplotypes between one specimen of C. damascina from Euphrates and another of C. umbla from Tigris reflect one of three possibilites: recent speciation, mitochondrial introgression or a combination of both. The results obtained in this study indicate that speciation of the above-mentioned six taxa is quite recent and that their dispersal and present-day distribution can be related to Pleistocene events. The drying out of the Persian Gulf, probably during one of the first glacials of the Pleistocene, led the ancestor of the C. damascina species complex in Mesopotamia to reach the rivers of the Gulf and of Hormuz basins and differentiate there, giving rise to the eastern lineage (ancestor of C. buhsei, C. saadii and Capoeta sp.1). As connections presumably existed among the different river drainages and basins in Iran during the wet periods of the Pleistocene, the ancestor of C. buhsei, C. saadii and Capoeta sp.1 was subsequently able to colonize the various Iranian drainages and differentiate there, giving rise to C. buhsei, C. saadii and Capoeta sp.1. After the separation from the eastern lineage, the western lineage, represented by the ancestor of C. damascina, C. umbla and C. caelestis, most likely reached the Levant from the Tigris-Euphrates system during the Pleistocene glacials, when river connections existed in the regions of the upper courses of Ceyhan Nehri (southern Turkey) and some western affluents to the Euphrates. From Ceyhan Nehri, it dispersed into other rivers in southern Turkey during Pleistocene periods of low sea levels until it reached Göksu Nehri and evolved into C. caelestis. The sister population differentiated into C. damascina and C. umbla. Based on the results obtained in this study, it is likely that C. damascina colonized the Levant and southern Turkey during the Pleistocene glacials. This is well supported by the low genetic variability among the C. damascina populations. Direct connections existed among the river drainages in the Levant during the Pleistocene periods of low sea level, thus serving as a pathway for the dispersal of C. damascina. The results of this study provide a coherent picture of the taxonomic position, phylogenetic relationships and evolutionary history of the C. damascina species complex and explain present patterns of distribution considering paleogeographic events.
Strukturelle Organisation und Mobilisierung des Primaten-spezifischen Non-LTR-Retrotransposons SVA
(2011)
SVA-Elemente repraesentieren die juengste Familie der Non-LTR-Retrotransposons,
welche das humane Genom fortwaehrend modifizieren. SVA-Elemente zeichnen sich
durch ihre Organisation aus zusammengesetzten repetitiven Elementen aus. Um
Rueckschluesse auf den Assemblierungsprozess, der zur gegenwaertigen Organisation der
SVA-Elemente fuehrte, und ueber transkriptionelle Regulation dieser Elemente zu ziehen,
wurden Unterschiede in der Struktur der 116 SVA-Elemente, die auf humanem
Chromosom 19 lokalisiert sind, detailliert untersucht.
SVA-Elemente konnten in sieben unterschiedliche Strukturvarianten eingeteilt werden,
einschliesslich neuer Varianten wie SVA2, 3`-verkuerzte Elemente und Elemente mit 5`-
flankierenden Transduktionen. Ich habe auch eine extrem erfolgreiche human-spezifische
5`-Transduktionsgruppe identifiziert, SVA_F1, die trotz ihres jungen evolutionaeren Alters
ca. 32% aller Mitglieder der SVA-Subfamilie SVA_F umfasst. Die transkriptionelle
Kontrolle einer retrotransponierten und 5`-verkuerzten SVA_F-Kopie durch den Promotor
des MAST2-Gens diente als urspruengliches Source-Element dieser umfangreichen 5`-
Transduktionsgruppe, die mindestens 84 Elemente einschliesst. Die zusaetzlichen 5`-
sowie 3`-Transduktionsereignisse der vollstaendigen Alu-Sequenzen bei Mitgliedern der
SVA_F1-Transduktionsgruppe 4 weisen auf ihre wichtige Rolle in der erfolgreichen
Expansion im humanen Genom hin. Diese nachtraeglich erworbenen Alu-Sequenzen
machen SVA_F1-Familienmitglieder offensichtlich zum besseren Substrat fuer die Trans-
Mobilisierung durch die L1-Proteinmaschinerie. Die unterschiedlichen konsekutiven 5`-
Tansduktionsereignisse der SVA_F1-Familienmitglieder deuten auf transkriptionelle
Kontrolle ihrer Source-Elemente durch eine Vielzahl externer zellulaerer Promotoren hin,
die im Laufe der Evolution in Keimzellen aktiv waren. Ausserdem zeigt die Existenz von
5`-Transduktionen, dass SVA-Elemente sich die 5`-flankierenden Sequenzen aneignen
koennen. Die Daten zeigen auch, dass SVA-vermittelte 5-Tansduktionsereignisse
alternatives RNA-Spleissen an putativen Spleissstellen involvieren. Aus der EST-
Datenbankanalyse ist ersichtlich, dass Mitglieder der SVA_F1-Subfamilie auch
gegenwaertig transkribiert werden.
SVA-Elemente sind hoch aktiv im humanen Genom, aber der Mechanismus ihrer
Retrotransposition wurde bislang nicht aufgeklaert. Vorangehende Analysen genomischer
SVA-Kopien liessen auf eine L1-vermittelte Mobilisierung schliessen; allerdings wurde
der experimentelle Beweis dieser Hypothese bislang nicht geliefert. Mit Hilfe der
Zellkultur-basierten Trans-Mobilisierungsassays wurde in dieser Arbeit zum ersten Mal
experimentell bewiesen, dass SVA-Elemente tatsaechlich durch die L1-kodierten Proteine
in trans mobilisiert werden. Zu diesem Zweck wurden HeLa-Zellen mit einem
vollstaendigen oder mit einem 5`-verkuerzten SVA-Retrotranspositionsreporterkonstrukt
sowie mit einem L1-Expressionsplasmid bzw. Leervektor kotransfiziert und dann die
jeweiligen Raten der SVA-Retrotransposition anhand Neo-resistenter Kolonien, die
mindestens ein de novo-Retrotranspositionsereignis widerspiegeln, bestimmt. Die
Experimente zeigen, dass die Entstehung der Neo-resistenten Kolonien von der
Koexpression L1-kodierter Proteine abhaengig ist. Ich konnte auch zeigen, dass das
vollstaendige SVA-Testkonstrukt - im Gegensatz zum 5`-verkuerzten SVA-Konstrukt -
mit einer signifikant hoeheren Retrotranspositionsrate als die Kontrollkonstrukte, die zur
Generierung der prozessierten Pseudogenformation eingesetzt wurden, trans-mobilisiert
wird. Die Ergebnisse der Trans-Mobilisierungsassays belegen, dass SVA-Elemente ein
bevorzugtes Substrat fuer die L1-Proteinmaschinerie darstellen, und ihre 5`-Region
einschliesslich der Alu-homologen Sequenz fuer die hohe Retrotranspositionsrate essentiell
ist. Die elf analysierten SVA de novo-Integrationsereignisse weisen Merkmale der L1-
vermittelten Retrotransposition auf, wie Poly(A)-Enden, L1-EN-spezifische Konsensus-
Zielsequenz (NNAUNA), Zielsequenz-Verdoppelungen (TSDs), Mikrohomologien und
zusaetzliche Guanosin-Nukleotide am 5`-UEbergang.
Zusammenfassend demonstrieren die Ergebnisse dieser Studien, dass ein signifikanter Teil
der Mitglieder der human-spezifischen SVA-Subfamilie aus transkriptioneller Kontrolle
ihrer Source-Elemente durch externe Promotoren hervorgeht. Durch die in dieser Arbeit
durchgefuehrten in silico-Analysen wurde auch gezeigt, dass SVA-vermittelte 5`-
Transduktionsereignisse zur strukturellen Vielfalt der SVA-Elemente fuehren, und eine
neue Art von genomischen Umstrukturierungen darstellen, die zur Plastizitaet des
humanen Genoms beitragen. Ausserdem bestaetigen die Ergebnisse der Trans-
Mobilisierungsassays die Hypothese, dass SVA-Elemente tatsaechlich durch die L1-
kodierte Proteinmaschinerie trans-mobilisiert werden. Dabei sind Module am 5`-Ende der
SVA-Elemente fuer diesen Prozess hoechst relevant.
Die Ergebnisse der Dualen-Luciferase-Reportergen-Assays unterstuetzen die Hypothese,
dass innerhalb der SINE-R-Sequenz von SVA H19_27 cis-aktive Elemente vorhanden
sind, die auf aehnliche Weise wie die cis-aktiven Elemente innerhalb der 5`LTR von
HERV-K reguliert werden.
Ausserdem wurde in dieser Arbeit die Existenz interner reguatorischer Sequenzen
innerhalb der SVA-Sequenz bestaetigt. Mit Hilfe der Dualen-Luciferase-Reportergen-
Assays konnte zum ersten Mal gezeigt werden, dass SVA-Elemente cis-aktive Elemente
enthalten, die hauptsaechlich in der SINE-R-Region lokalisiert sind. Diese cis-aktiven
Elemente werden auf aehnliche Weise wie die cis-aktiven Elemente innerhalb der 5`LTR
von HERV-K reguliert. Die starke transkriptionelle Aktivitaet des vollstaendigen SVA-
Testelements und des L1RP-Promotors in den Teratokarzinom-Zelllinien bekraeftigen die
Annahme, dass haeufige SVA-Mobilisierung in Keimzellen durch die gleichzeitig
hochregulierte SVA- und L1-Transkription bedingt sein koennte.
Es konnte gezeigt werden, dass SVA-Elemente cis-aktive Elemente enthalten, die
hauptsaechlich in der SINE-R-Region lokalisiert sind, und auf aehnliche Weise wie die cis-
aktiven Elemente innerhalb der 5`LTR von HERV-K reguliert werden. Die starke
transkriptionelle Aktivitaet des vollstaendigen SVA-Testelements und des L1RP-Promotors
in Teratokarzinom-Zelllinien bestaetigen die Annahme, dass haeufige SVA-
Retrotransposition in Keimzellen durch die gleichzeitig hochregulierte SVA- und L1-
Transkription bedingt sein koennte.
Secretins are a family of large bacterial outer membrane protein complexes mediating the transport of complex structures, such as type IV pili, DNA and filamentous phage, or various proteins, such as extracellular enzymes and pathogenicity determinants. PilQ of the thermophilic bacterium Thermus thermophilus HB27 is a member of the secretin family required for natural transformation. Here we report the isolation, structural, and functional analyses of a unique PilQ from T. thermophilus. Native PAGE, gel filtration chromatography, and electrophoretic mobility shift analyses indicated that PilQ forms a macromolecular homopolymeric complex that binds dsDNA. Electron microscopy showed that the PilQ complex is 15 nm wide and 34 nm long and consists of an extraordinary stable "cone" and "cup" structure and five ring structures with a large central channel. Moreover, the electron microscopic images together with secondary structure analyses combined with structural data of type II protein secretion system and type III protein secretion system secretins suggest that the individual rings are formed by conserved domains of alternating α-helices and β-sheets. The unprecedented length of the PilQ complex correlated well with the distance between the inner and outer membrane of T. thermophilus. Indeed, PilQ was found immunologically in both membranes, indicating that the PilQ complex spans the entire cell periphery of T. thermophilus. This is consistent with the hypothesis that PilQ accommodates a PilA4 comprising pseudopilus mediating DNA transport across the outer membrane and periplasmic space in a single-step process.
The mfl-riboswitch regulates expression of ribonucleotide reductase subunit in Mesoplasma florum by binding to 2´-deoxyguanosine and thereby promoting transcription termination. We characterized the structure of the ligand-bound aptamer domain by NMR spectroscopy and compared the mfl-aptamer to the aptamer domain of the closely related purine-sensing riboswitches. We show that the mfl-aptamer accommodates the extra 2´-deoxyribose unit of the ligand by forming a more relaxed binding pocket than these found in the purine-sensing riboswitches. Tertiary structures of the xpt-aptamer bound to guanine and of the mfl-aptamer bound to 2´-deoxyguanosine exhibit very similar features, although the sequence of the mfl-aptamer contains several alterations compared to the purine-aptamer consensus sequence. These alterations include the truncation of a hairpin loop which is crucial for complex formation in all purine-sensing riboswitches characterized to date. We further defined structural features and ligand binding requirements of the free mfl-aptamer and found that the presence of Mg2+ is not essential for complex formation, but facilitates ligand binding by promoting pre-organization of key structural motifs in the free aptamer.
Eukaryotic ribosome biogenesis requires the concerted action of numerous ribosome assembly factors, for most of which structural and functional information is currently lacking. Nob1, which can be identified in eukaryotes and archaea, is required for the final maturation of the small subunit ribosomal RNA in yeast by catalyzing cleavage at site D after export of the preribosomal subunit into the cytoplasm. Here, we show that this also holds true for Nob1 from the archaeon Pyrococcus horikoshii, which efficiently cleaves RNA-substrates containing the D-site of the preribosomal RNA in a manganese-dependent manner. The structure of PhNob1 solved by nuclear magnetic resonance spectroscopy revealed a PIN domain common with many nucleases and a zinc ribbon domain, which are structurally connected by a flexible linker. We show that amino acid residues required for substrate binding reside in the PIN domain whereas the zinc ribbon domain alone is sufficient to bind helix 40 of the small subunit rRNA. This suggests that the zinc ribbon domain acts as an anchor point for the protein on the nascent subunit positioning it in the proximity of the cleavage site.
Bacteria are generally assumed to be monoploid (haploid). This assumption is mainly based on generalization of the results obtained with the most intensely studied model bacterium, Escherichia coli (a gamma-proteobacterium), which is monoploid during very slow growth. However, several species of proteobacteria are oligo- or polyploid, respectively. To get a better overview of the distribution of ploidy levels, genome copy numbers were quantified in four species of three different groups of proteobacteria. A recently developed Real Time PCR approach, which had been used to determine the ploidy levels of halophilic archaea, was optimized for the quantification of genome copy numbers of bacteria. Slow-growing (doubling time 103 minutes) and fast-growing (doubling time 25 minutes) E. coli cultures were used as a positive control. The copy numbers of the origin and terminus region of the chromosome were determined and the results were in excellent agreement with published data. The approach was also used to determine the ploidy levels of Caulobacter crescentus (an alpha-proteobacterium) and Wolinella succinogenes (an epsilon-proteobacterium), both of which are monoploid. In contrast, Pseudomonas putida (a gamma-proteobacterium) contains 20 genome copies and is thus polyploid. A survey of the proteobacteria with experimentally-determined genome copy numbers revealed that only three to four of 11 species are monoploid and thus monoploidy is not typical for proteobacteria. The ploidy level is not conserved within the groups of proteobacteria, and there are no obvious correlations between the ploidy levels with other parameters like genome size, optimal growth temperature or mode of life.