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Chromatin folding in health and disease: exploring allele-specific topologies and the reorganization due to the 16p11.2 deletion in autism-spectrum disorder.Kempfer, Rieke 09 November 2020 (has links)
Die 3D Struktur von Chromosomen im Zellkern reguliert verschiedene Funktionen in der Zelle und Fehler in der 3D Faltung des Genoms können pathogen sein. 3D Genomfaltung kann mit verschiedenen Methoden untersucht werden um Chromatinkontakte, sowie die Position von DNA in Relation zu sub-nuklearen Bereichen oder der Kernmembran zu detektieren. Hier verwende ich GAM und Hi-C um zwei Aspekte der 3D Genomtopologie zu untersuchen, die Allelspezifität von Chromatinkontakten und Kontakte zwischen Chromosomen. Ich untersuche allelspezifische Kontakte in murinen embryonalen Stammzellen und Interaktionen zwischen Chromosomen im Zusammenhang mit Autismus Spektrum Störung auf ihre Relevanz in der Regulation von Genen.
Zur allelspezifischen Detektion von Chromatinkontakten generierte ich einen GAM Datensatz der tausende von nuklearen Cryodünnschnitten enthält. Die Generierung dieser Daten beinhaltete die Entwicklung einer verbesserten Version der GAM Methode zur Produktion von großen Datensätzen in Hochdurchsatz. Hier zeige ich, dass GAM effizient Haplotyp-spezifische Chromatinkontakte bestimmen kann. Erste Untersuchungen von allelspezifischer 3D Genomtopologie zeigten weitreichende Unterschiede zwischen den Allelen, welche „A/B compartments“ und spezifische Chromatinkontakte beinhalten, wie zum Beispiel am Imprinting Locus H19/Igf2.
Zur Untersuchung von interchromosomalen Kontakten detektierte ich Chromatinkontakte mit Hi-C im Kontext einer genomischen Deletion am humanen 16p11.2 Locus, assoziiert mit Autismus Spektrum Störung. Ich zeige hier, dass die Deletion am 16p11.2 Locus zu der Reorganisation von spezifischen interchromosomalen Kontakten zwischen 16p11.2 und Chromosom 18 führt, und stelle eine Hypothese auf wie diese interchromosomalen Kontakte zur ektopischen Aktivierung von Pcdh Genen auf Chromosom 18 führen. Protocadherins haben wichtige Funktionen in neuronaler Konnektivität, ein Prozess dessen Störung zur Manifestierung von Autismus Spektrum Störung beitragen könnte. / The 3D folding of interphase chromosomes inside the nucleus regulates important nuclear functions and once disrupted can lead to the manifestation of disease. Different techniques can be used to map 3D genome folding and detect pairwise and multiway interactions of the genome, or map the positions of DNA with respect to subnuclear compartments or the nuclear lamina. Here, I use GAM and Hi-C to explore two aspects of 3D genome topology, the allele specificity of chromatin contacts and long-range contacts between chromosomes, respectively. I detect specific contacts of the parental alleles in mouse embryonic stem cells and interactions between chromosomes in the context of congenital disease and study them with regard to their functionality and importance in mammalian gene regulation.
For detecting chromatin contacts with allele specificity, I produced a GAM dataset containing thousands of nuclear slices. The collection of this data was accompanied by the development of a high-throughput version of GAM that allows the generation of large datasets. I show that GAM can determine haplotype-specific chromatin contacts with high efficiencies. First explorations of allele-specific chromatin topologies reveal many differences between the parental alleles, including allele-specific compartments A and B, and specific chromatin contacts, for example at the imprinted H19/Igf2 locus.
For the exploration of inter-chromosomal contacts in disease, I mapped chromatin interactions with Hi-C in the context of a CNV at the human 16p11.2 locus, associated with autism spectrum disorders. Here, I show that the deletion at the 16p11.2 locus results in the rearrangement of specific inter-chromosomal contacts between the 16p11.2 locus and chromosome 18 and propose a role for these inter-chromosomal contact changes in the upregulation of the nearby Pcdhb gene cluster, which comprises protocadherin genes with important functions in neuronal connectivity during development.
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Elucidating the influence of chromatin topology on cellular identity in murine pre-implantation developmentLoof, Gesa 22 June 2021 (has links)
Präzise regulierte Genexpression, ist der Schlüssel zu erfolgreicher Embryonal-entwicklung. Die Expression von Zelltyp-spezifischen Transkriptionsfaktoren kann durch räumliche Interaktionen von Promotoren und Enhancern im Nukleus kontrolliert werden, aber auch durch 3D Faltung der DNA in größere organisatorische Einheiten wie “Topologically Associating Domains” (TADs) oder “A/B compartments”.
Um die 3D Faltung in den Zelltypen des prä-implantations Embryos zu untersuchen, nutze ich ES und XEN Zellen, die stark dem Epiblast und dem primitiven Endoderm in der inneren Zellmasse des E4.5 Embryos ähneln. Um den Zusammenhang zwischen 3D DNA Faltung und zellulärer Identität zu erforschen, habe ich GAM, ATAC-seq und RNA-seq Daten von ES und XEN Zellen produziert. Um die Genom-Architektur im Embryo zu untersuchen, habe ich außerdem die GAM Methode an den Mausembryo angepasst und kann dadurch erstmals genomweit DNA-Faltung in den spezifischen Zelltypen der inneren Zellmasse des prä-implantations Embryos zeigen.
ES und XEN Zellen zeigen viele differentiell exprimierte Gene, sowie starke Veränderungen in der Chromatin-Organisation, beispielweise in der Bildung von reprimierten Chromatinnetzwerken in ESCs, die wichtige XEN Gene wie Gata6 und Lama1 enthalten, während diese nicht aktiv sind. XEN-spezifische Genexpression ist oft mit der Präsenz von XEN-spezifischen “TAD boundaries” gekoppelt. Der Sox2 Locus zeigt eine ESC-spezifische Organisation mit aktiven Genen, und Regionen die von den Transkriptionsfaktoren SOX2, NANOG und OCT4 gebunden sind.
Die starke Reorganisation der Genom-Architektur in wichtigen Loci wie Gata6 und Sox2 konnte ich mit in vivo GAM Daten bestätigen und finde ähnliche Unterschiede zwischen den beiden Zelltypen der inneren Zellmasse wie im in vitro Model. Diese Ergebnisse zeigen, wie wichtig es ist, Zelltypen getrennt zu untersuchen und, dass eine Verbindung zwischen zellulärer Identität und der Faltung des Genoms in der Embryonalentwicklung besteht. / Tightly controlled gene regulation is key to functional metazoan embryonic development. The expression of cell-fate determining transcription factors orchestrates the establishment of the various lineages of the embryo. Gene expression is often regulated via specific chromatin organisation.
To investigate cell type-specific differences in chromatin folding in early embryonic development, I used in vitro models of the two distinct cell populations in the blastocyst ICM. In mouse ES and XEN cells, I mapped 3D genome conformation using Genome Architecture Mapping (GAM), chromatin accessibility using ATAC-seq, and gene expression using total RNA-seq. To enable the mapping of 3D genome folding directly in the blastocyst ICM, I adapted GAM for cell type-specific selection of nuclei, by integrating immunofluorescence detection of markers, and generated the first genome-wide chromatin contact maps that distinguish ICM cell types.
I report that the ES and XEN cell lineages undergo abundant large scale rearrangements of genome architecture and exhibit high numbers of differentially expressed genes. For example, extra-embryonic endoderm genes, such as Lama1 and Gata6, form silent hubs in ESCs, potentially connecting maintenance of pluripotency to 3D structure of the genome. Further, I show that the expression of XEN cell-specific genes relates to the formation of XEN cell-specific TAD boundaries. Chromatin contacts at the Sox2 locus exhibit an ESC-specific organisation around binding of pluripotency transcription factors OCT4, NANOG and SOX2, into hubs of high gene activity.
The observations detected in in vitro models, were investigated in smaller GAM datasets produced using the in vivo counterparts in the ICM. Overall, in vivo data confirmed the high degree of chromatin rearrangement among the two cell types, specifically in loci of lineage driving genes. The findings from in vivo data further underscore the connection of genome topology and cellular identity.
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Computational, Evolutionary and Functional Genetic Characterization of Fungal Gene Clusters Adapted to Degrade Plant Defense ChemicalsGluck Thaler, Emile 04 September 2019 (has links)
No description available.
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Evolution of symbiotic lineages and the origin of new traitsTamarit, Daniel January 2016 (has links)
This thesis focuses on the genomic study of symbionts of two different groups of hymenopterans: bees and ants. Both groups of insects have major ecological impact, and investigating their microbiomes increases our understanding of their health, diversity and evolution. The study of the bee gut microbiome, including members of Lactobacillus and Bifidobacterium, revealed genomic processes related to the adaptation to the gut environment, such as the expansion of genes for carbohydrate metabolism and the acquisition of genes for interaction with the host. A broader genomic study of these genera demonstrated that some lineages evolve under strong and opposite substitution biases, leading to extreme GC content values. A comparison of codon usage patterns in these groups revealed ongoing shifts of optimal codons. In a separate study we analysed the genomes of several strains of Lactobacillus kunkeei, which inhabits the honey stomach of bees but is not found in their gut. We observed signatures of genome reduction and suggested candidate genes for host-interaction processes. We discovered a novel type of genome architecture where genes for metabolic functions are located in one half of the genome, whereas genes for information processes are located in the other half. This genome organization was also found in other Lactobacillus species, indicating that it was an ancestral feature that has since been retained. We suggest mechanisms and selective forces that may cause the observed organization, and describe processes leading to its loss in several lineages independently. We also studied the genome of a species of Rhizobiales bacteria found in ants. We discuss its metabolic capabilities and suggest scenarios for how it may affect the ants’ lifestyle. This genome contained a region with homology to the Bartonella gene transfer agent (GTA), which is a domesticated bacteriophage used to transfer bacterial DNA between cells. We propose that its unique behaviour as a specialist GTA, preferentially transferring host-interaction factors, originated from a generalist GTA that transferred random segments of chromosomal DNA. These bioinformatic analyses of previously uncharacterized bacterial lineages have increased our understanding of their physiology and evolution and provided answers to old and new questions in fundamental microbiology.
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Crystal Structure Of Mycobacterium Tuberculosis Histone Like Protein HU And Structure Based Design Of Molecules To Inhibit MtbHU-DNA Interaction : Leads For A New Target. Structure Aided Computational Analysis Of Metal Coordinated Complexes Containing Amino Acids And Organic Moieties Designed For Photo Induced DNA CleavageBhowmick, Tuhin 04 1900 (has links) (PDF)
In bacteria, nucleoid associated proteins (NAPs) represent a prominent group of global regulators that perform the tasks of genome compaction, establishing chromosomal architecture and regulation of various DNA transactions like replication, transcription, recombination and repair. HU, a basic histone like protein, is one of the most important NAPs in Eubacteria. Mycobacterium tuberculosis produces a homodimeric HU (MtbHU), which interacts with DNA non-specifically through minor groove binding. Exploration for essential genes in Mtb (H37Rv) through transposon insertion has identified HU coding gene [Rv2986c, hupB; Gene Id: 15610123; Swiss-Prot ID: P95109)] to be vital for the survival and growth of this pathogen.
MtbHU contains two domains, the N-terminal domain which is considerably conserved among the HU proteins of the prokaryotic world, and a C–terminal domain consisting of Lys-Ala rich multiple repeat degenerate motifs. Sequence analysis carried out by the thesis candidate showed that MtbHU exhibits 86 to 100 percent identity within the N-term region among all the mycobacterium species and some of the members of actinobacteria, including important pathogens like M. tuberculosis, M. leprae, M. ulcerans, M. bovis, Nocardia; while C term repeat region varies relatively more. This strikingly high cross species identity establishes the MtbHU N-terminal domain (MtbHUN) as an important representative structural model for the above mentioned group of pathogens.
The thesis candidate has solved the X-ray crystal structure of MtbHUN, crystallized in two different forms, P2 and P21. The crystal structures in combination with computational analyses elucidate the structural details of MtbHU interaction with DNA. Moreover, the similar mode of self assembly of MtbHUN observed in two different crystal forms reveals that the same DNA binding interface of the protein can also be utilized to form higher order oligomers, that HU is known to form at higher concentrations. Though the bifunctional interface involved in both DNA binding and self assembly is not akin to a typical enzyme active site, the structural analysis identified key interacting residues involved in macromolecular interactions, allowing us to develop a rationale for inhibitor design. Further, the candidate has performed virtual screening against a vast library of compounds, and design of small molecules to target MtbHU and disrupt its binding to DNA. Various biochemical, mutational and biological studies were performed in the laboratory of our collaborator Prof. V. Nagaraja, MCBL, IISc., to investigate these aspects. After a series of iterations including design, synthesis and validation, we have identified novel candidate molecules, which bind to MtbHU, disrupt chromosomal architecture and arrest M. tuberculosis growth. Thus, the study suggests that, these molecules can serve as leads for a new class of DNA-interaction inhibitors and HU as a druggable target, more so because HU is essential to Mtb, but absent in human. Our study proposes that, targeting the nucleoid associated protein HU in Mtb can strategize design of new anti-mycobacterial therapeutics. Perturbation of MtbHU-DNA binding through the identified compounds provides the first instance of medium to small molecular inhibitors of NAP, and augurs well for the development of chemical probe(s) to perturb HU functions, and can be used as a fundamental chemical tool for the system level studies of HU-interactome.
Section I: “Crystal structure of Mycobacterium tuberculosis histone like protein HU and structure based design of molecules to inhibit MtbHU-DNA interaction: Leads for a new target.” of this thesis presents an elaborate elucidation of the above mentioned work.
The candidate has additionally carried out structure based computational and theoretical work to elucidate the interaction of amino acid based metal complexes which efficiently bind to DNA via minor-groove, major-groove or base intercalation interaction and display DNA cleavage activity on photo-irradiation. This understanding is crucial for the design of molecules towards Photodynamic Therapy (PDT). PDT is an emerging method of non-invasive treatment of cancer in which drugs like Photofrin show localized toxicity on photoactivation at the tumor cells leaving the healthy cells unaffected.
The work carried out in our group in close collaboration with Prof. A.R. Chakravarty of Inorganic and Physical Chemistry Department elaborates the structure based design of Amino acid complexes containing single Cu (II), such as [Cu(L-trp)(dpq)(H2O)]+ , [Cu (L-arg) 2](NO3)2 , Amino acid complexes containing oxobridged diiron Fe(III), such as [{Fe(L-his)(bpy)}2(μ-O)](ClO4)2 , [{Fe(L-his)(phen)}2(μ-O)](ClO4)2 , and Complexes containing Binuclear Cu(II) coordinated organic moiety, such as [{(dpq) CuII}2(μ-dtdp)2], which bind to DNA through minor groove/major groove/base intercalation interactions. Docking analysis was performed with the X-ray crystallographic structure of DNA as receptor and the metal complexes as ligands, to study the mode of binding to DNA and to understand the possible mode of DNA cleavage (single/double strand) when activated with laser.
Section II: “Structure based computational and theoretical analysis of metal coordinated complexes containing amino acids and organic moieties designed for photo induced DNA cleavage” of this thesis presents a detailed presentation of the above mentioned work.
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The functional and spatial organization of chromatin during Thymocyte development / L’organisation fonctionnelle et spatiale de la chromatine pendant le développement des lymphocytes TBen Zouari, Yousra 03 May 2018 (has links)
Malgré les vastes études démontrant le rôle de la conformation génomique dans le contrôle transcriptionnel, de nombreuses questions restent en suspens, et en particulier, comment ces structures chromatiniennes sont formées et maintenues. Pour mieux comprendre les liens entre l’état de la chromatine au niveau des éléments régulateurs, la topologie de la chromatine et la régulation de la transcription, nous utilisons la technique CHi-C basée sur la technologie de capture de la conformation chromosomique (3C). En utilisant deux stratégies de capture ciblant deux différentes structure chromatiniennes (les boucles chromatiniennes et les domaines topologiques), nous avons pu décrypter la structure chromatinienne associée à la différenciation des thymocytes et mettre en évidence des mécanismes de contrôle transcriptionnel de certains gènes. Les expériences futures de l’équipe vont consister à examiner les facteurs (hors transcription) qui peuvent influencer l'architecture de la chromatine, comme la liaison différentielle des CTCF, et comment ces facteurs peuvent être coordonnés par le contrôle de transcription. / Chromosome folding takes place at different hierarchical levels, with various topologies correlated with control of gene expression. Despite the large number of recent studies describing chromatin topologies and their correlations with gene activity, many questions remain, in particular how these topologies are formed and maintained. To understand better the link between epigenetic marks, chromatin topology and transcriptional control, we use CHi-C technique based on the chromosome conformation capture (3C) method. By using two capture strategies targeting two different chromatin structures (chromatin loops and topological domains), we have been able to decipher the chromatin structure associated with thymocyte differentiation and to highlight mechanisms for the transcriptional control of certain genes. Future experiments of the lab will examine mechanisms other than transcription which may influence chromatin architecture, such as differential binding of CTCF, and how these may interplay with transcriptional control and chromatin architecture.
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Investigation of Mammalian Chromatin Folding at Different Genomic Length Scales using High Resolution ImagingKrämer, Dorothee Charlotte Agathe 14 May 2019 (has links)
Chromatin ist ein Makromolekül, dessen Genregulation innerhalb des räumlich eingeschränkten Zellkerns organisiert werden muss. Die Genomorganisation ist eng mit Genaktivierung und Genrepression verknüpft. In den vergangenen Jahren wurde gezeigt, dass die DNA hierarchisch organisiert ist. Die Faltung läuft in aufeinander folgenden Schritten ab, wobei jede Organisationsebene sowohl zur räumlichen Komprimierung, als auch zur Genregulation beiträgt. In dieser Dissertation wurden mit Hilfe von hochauflösender Mikroskopie verschiedene Ebenen der 3D Chromatinorganisation auf Einzelzell-Basis untersucht. Auf der kleinsten Organisationsebene wurde die Struktur zweier, nebeneinander liegender topologischer Domänen (TADs) am Sox9-Lokus erforscht. Mit Hilfe von Fluoreszenz in situ Hybridisierung (FISH) in 3D Zellen, sowie Cryoschnitten in embryonalen Stammzellen von Mäusen konnten Interaktionen zwischen den benachbarten TADs festgestellt werden. FISH in Zellen mit genomischen Duplikationen, zeigte das Entstehen von zwei unterschiedlichen, durch die Duplikation entstandenen, Konformationen. Unter Verwendung von FISH wurden long-range Kontakte, die zuvor mit GAM entdeckt wurden, untersucht und es zeigte sich, dass sie häufig zwischen TADs die regulatorischen Domänen enthalten auftreten. Zudem zeigte sich die Bildung von Clustern zwischen mehreren, weit auseinander liegenden, regulatorischen Elementen. Dies lässt unter Umständen auf das Entstehen von regulatorischen Zentren zwischen diesen Enhancer-reichen Regionen schließen. Weitere Untersuchungen zeigten Veränderung der sogenannten Super-Enhancer Cluster in unterschiedlichen Zelltypen. Des Weiteren sind Super-Enhancer TADs sehr dekondensiert und wurden häufig an Splicing-Speckle Regionen vorgefunden. / Chromatin needs to organize gene regulation whilst fitting into the confined space of the nucleus. Chromatin organization is therefore intertwined with gene activation and silencing.
In recent years many advances in the field of chromatin architecture have been made showing that chromatin is organized hierarchically. Folding occurs in subsequent units, where each level of organization contributes to the spatial compaction of DNA and gene regulation. In this dissertation different levels of 3D chromatin organization were analysed using single-cell, high-resolution imaging. On the smallest scale, the 3D organization of two neighbouring Topologically Associating Domains (TADs) at the Sox9 locus was investigated. Performing Fluorescence in situ Hybridization (FISH) in 3D and cryosectioned mouse embryonic stem cells, extensive contacts between the two neighbouring TADs across the TAD boundary were detected. Applying FISH in a cell line bearing a genomic duplication within the Sox9 locus, the occurrence of two different conformations that result from the duplication was shown. Recent evidence from GAM showed the formation of long-range, multimer contacts between distal regulatory elements. Investigating the occurrence of long-range contacts between super-enhancer TADs in single cells by FISH, showed that they establish frequent interactions at close spatial distances. Furthermore the formation of clusters containing distal super-enhancer TADs could be demonstrated, indicating the possibility of higher-order regulatory hubs between these enhancer-rich regions. Further investigation showed that super-enhancer regions form different clusters in different cell types. Finally, it was shown that super-enhancers are highly decondensed and preferentially located at splicing speckles.
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Genomic and transcriptomic characterization of novel iron oxidizing bacteria of the genus “Ferrovum“ / Charakterisierung von neuartigen eisenoxidierenden Bakterien der Gattung „Ferrovum” auf Genom- und TranskriptomebeneUllrich, Sophie 30 June 2016 (has links) (PDF)
Acidophilic iron oxidizing bacteria of the betaproteobacterial genus “Ferrovum” are ubiquitously distributed in acid mine drainage (AMD) habitats worldwide. Since their isolation and maintenance in the laboratory has proved to be extremely difficult, members of this genus are not accessible to a “classical” microbiological characterization with exception of the designated type strain “Ferrovum myxofaciens” P3G.
The present study reports the characterization of “Ferrovum” strains at genome and transcriptome level. “Ferrovum” sp. JA12, “Ferrovum” sp. PN-J185 and “F. myxofaciens” Z-31 represent the iron oxidizers of the mixed cultures JA12, PN-J185 and Z-31. The mixed cultures were derived from the mine water treatment plant Tzschelln close to the lignite mining site in Nochten (Lusatia, Germany). The mixed cultures also contain a heterotrophic strain of the genus Acidiphilium. The genome analysis of Acidiphilium sp. JA12-A1, the heterotrophic contamination of the mixed culture JA12, indicates an interspecies carbon and phosphate transfer between Acidiphilium and “Ferrovum” in the mixed culture, and possibly also in their natural habitat. The comparison of the inferred metabolic potentials of four “Ferrovum” strains and the analysis of their phylogenetic relationships suggest the existence of two subgroups within the genus “Ferrovum” (i.e. the operational taxonomic units OTU-1 and OUT-2) harboring characteristic metabolic profiles. OTU-1 includes the “F. myxofaciens” strains P3G and Z-31, which are predicted to be motile and diazotrophic, and to have a higher acid tolerance than OTU-2. The latter includes two closely related proposed species represented by the strains JA12 and PN-J185, which appear to lack the abilities of motility, chemotaxis and molecular nitrogen fixation. Instead, both OTU-2 strains harbor the potential to use urea as alternative nitrogen source to ammonium, and even nitrate in case of the JA12-like species. The analysis of the genome architectures of the four “Ferrovum” strains suggests that horizontal gene transfer and loss of metabolic genes, accompanied by genome reduction, have contributed to the evolution of the OTUs.
A trial transcriptome study of “Ferrovum” sp. JA12 supports the ferrous iron oxidation model inferred from its genome sequence, and reveals the potential relevance of several hypothetical proteins in ferrous iron oxidation. Although the inferred models in “Ferrovum” spp. share common features with the acidophilic iron oxidizers of the Acidithiobacillia, it appears to be more similar to the neutrophilic iron oxidizers Mariprofundus ferrooxydans (“Zetaproteobacteria”) and Sideroxydans lithotrophicus (Betaproteobacteria). These findings suggest a common origin of ferrous iron oxidation in the Beta- and “Zetaproteobacteria”, while the acidophilic lifestyle of “Ferrovum” spp. may have been acquired later, allowing them to also colonize acid mine drainage habitats.
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Genomic and transcriptomic characterization of novel iron oxidizing bacteria of the genus “Ferrovum“Ullrich, Sophie 30 May 2016 (has links)
Acidophilic iron oxidizing bacteria of the betaproteobacterial genus “Ferrovum” are ubiquitously distributed in acid mine drainage (AMD) habitats worldwide. Since their isolation and maintenance in the laboratory has proved to be extremely difficult, members of this genus are not accessible to a “classical” microbiological characterization with exception of the designated type strain “Ferrovum myxofaciens” P3G.
The present study reports the characterization of “Ferrovum” strains at genome and transcriptome level. “Ferrovum” sp. JA12, “Ferrovum” sp. PN-J185 and “F. myxofaciens” Z-31 represent the iron oxidizers of the mixed cultures JA12, PN-J185 and Z-31. The mixed cultures were derived from the mine water treatment plant Tzschelln close to the lignite mining site in Nochten (Lusatia, Germany). The mixed cultures also contain a heterotrophic strain of the genus Acidiphilium. The genome analysis of Acidiphilium sp. JA12-A1, the heterotrophic contamination of the mixed culture JA12, indicates an interspecies carbon and phosphate transfer between Acidiphilium and “Ferrovum” in the mixed culture, and possibly also in their natural habitat. The comparison of the inferred metabolic potentials of four “Ferrovum” strains and the analysis of their phylogenetic relationships suggest the existence of two subgroups within the genus “Ferrovum” (i.e. the operational taxonomic units OTU-1 and OUT-2) harboring characteristic metabolic profiles. OTU-1 includes the “F. myxofaciens” strains P3G and Z-31, which are predicted to be motile and diazotrophic, and to have a higher acid tolerance than OTU-2. The latter includes two closely related proposed species represented by the strains JA12 and PN-J185, which appear to lack the abilities of motility, chemotaxis and molecular nitrogen fixation. Instead, both OTU-2 strains harbor the potential to use urea as alternative nitrogen source to ammonium, and even nitrate in case of the JA12-like species. The analysis of the genome architectures of the four “Ferrovum” strains suggests that horizontal gene transfer and loss of metabolic genes, accompanied by genome reduction, have contributed to the evolution of the OTUs.
A trial transcriptome study of “Ferrovum” sp. JA12 supports the ferrous iron oxidation model inferred from its genome sequence, and reveals the potential relevance of several hypothetical proteins in ferrous iron oxidation. Although the inferred models in “Ferrovum” spp. share common features with the acidophilic iron oxidizers of the Acidithiobacillia, it appears to be more similar to the neutrophilic iron oxidizers Mariprofundus ferrooxydans (“Zetaproteobacteria”) and Sideroxydans lithotrophicus (Betaproteobacteria). These findings suggest a common origin of ferrous iron oxidation in the Beta- and “Zetaproteobacteria”, while the acidophilic lifestyle of “Ferrovum” spp. may have been acquired later, allowing them to also colonize acid mine drainage habitats.:EIDESSTATTLICHE ERKLÄRUNG ... 2
CONTENT ... 4
SUMMARY ... 9
CHAPTER I ... 11
ORIGIN AND MICROBIOLOGY OF ACID MINE DRAINAGE ... 11
ACIDOPHILIC IRON OXIDIZING BACTERIA OF THE GENUS “FERROVUM” ... 12
APPLICATION OF OMICS-BASED APPROACHES TO CHARACTERIZE ACIDOPHILES ... 14
AIMS OF THE PRESENT WORK ... 15
CHAPTER II ... 17
ABSTRACT ... 18
INTRODUCTION ... 18
METHODS ... 19
GENOME PROJECT HISTORY ... 19
GROWTH CONDITIONS AND GENOMIC DNA PREPARATION ... 20
GENOME SEQUENCING AND ASSEMBLY ... 20
GENOME ANNOTATION ... 21
RESULTS ... 21
CLASSIFICATION AND FEATURES ... 21
GENOME PROPERTIES ... 24
INSIGHTS FROM THE GENOME SEQUENCE ... 24
COMPARATIVE GENOMICS ... 28
CONCLUSIONS ... 30
ACKNOWLEDGMENTS ... 32
AUTHOR CONTRIBUTIONS ... 32
CHAPTER III ... 33
ABSTRACT ... 34
INTRODUCTION ... 34
METHODS ... 36
ORIGIN AND CULTIVATION OF “FERROVUM” STRAIN JA12 ... 36
GENOME SEQUENCING, ASSEMBLY AND ANNOTATION ... 37
VISUALIZATION OF THE NEARLY COMPLETE GENOME ... 38
PHYLOGENETIC ANALYSIS ... 39
PREDICTION OF MOBILE GENETIC ELEMENTS ... 39
NUCLEOTIDE SEQUENCE ACCESSION NUMBER ... 39
RESULTS AND DISCUSSION ... 39
PHYLOGENETIC CLASSIFICATION OF “FERROVUM” STRAIN JA12 ... 39
GENOME PROPERTIES ... 40
NUTRIENT ASSIMILATION AND BIOMASS PRODUCTION ... 44
Carbon dioxide fixation ... 44
Central carbon metabolism ... 45
Nitrogen ... 47
Phosphate ... 49
Sulfate ... 50
ENERGY METABOLISM ... 50
Ferrous iron oxidation ... 50
Other redox reactions connected to the quinol pool ... 54
Predicted formate dehydrogenase ... 55
STRATEGIES TO ADAPT TO ACIDIC ENVIRONMENTS, HIGH METAL LOADS AND OXIDATIVE STRESS ... 55
Acidic environment ... 55
Strategies to cope with high metal and metalloid loads ... 58
Oxidative stress ... 59
HORIZONTAL GENE TRANSFER ... 60
CONCLUSIONS ... 61
ACKNOWLEDGMENTS ... 62
AUTHORS\' CONTRIBUTIONS ... 62
CHAPTER IV ... 63
ABSTRACT ... 64
INTRODUCTION ... 64
METHODS ... 66
ORIGIN AND CULTIVATION OF “FERROVUM” STRAINS PN-J185 AND Z-31 ... 66
GENOME SEQUENCING, ASSEMBLY AND ANNOTATION ... 66
PREDICTION OF MOBILE GENETIC ELEMENTS ... 67
COMPARATIVE GENOMICS ... 68
Phylogenomic analysis ... 68
Assignment of protein-coding genes to the COG classification ... 68
Identification of orthologous proteins ... 68
Comparison and analysis of genome architectures ... 69
RESULTS ... 69
GENERAL GENOME FEATURES AND PHYLOGENETIC RELATIONSHIP OF THE FOUR “FERROVUM” STRAINS ... 69
COMPARISON OF INFERRED METABOLIC TRAITS ... 71
Identification of core genes and flexible genes ... 71
Comparison of the central metabolism ... 74
Central carbon metabolism ... 74
Nitrogen metabolism ... 77
Energy metabolism ... 78
Cell mobility and chemotaxis ... 78
Diversity of predicted stress tolerance mechanisms ... 78
Maintaining the intracellular pH homeostasis ... 78
Coping with high metal loads ... 79
Oxidative stress management ... 79
IDENTIFICATION OF POTENTIAL DRIVING FORCES OF GENOME EVOLUTION ... 80
Prediction of mobile genetic elements ... 81
Linking the differences in the predicted metabolic profiles to the genome architectures ... 82
Gene cluster associated with flagella formation and chemotaxis in “F. myxofaciens” ... 84
Gene clusters associated with the utilization of alternative nitrogen sources ... 86
Gene cluster associated with carboxysome formation in “F. myxofaciens” and OTU-2 strain JA12 ... 87
Putative genomic islands in the OTU-strain JA12 ... 89
CRISPR/Cas in “F. myxofaciens” Z-31: a defense mechanism against foreign DNA ... 91
DISCUSSION ... 92
THE COMPARISON OF THEIR METABOLIC PROFILES INDICATES THE EXISTENCE OF OTU- AND STRAIN-SPECIFIC FEATURES ... 92
GENOME EVOLUTION OF THE “FERROVUM” STRAINS APPEARS TO BE DRIVEN BY HORIZONTAL GENE TRANSFER AND GENOME REDUCTION ... 94
Horizontal gene transfer ... 94
Mechanisms of genome reduction ... 95
CONCLUDING REMARKS ... 98
ACKNOWLEDGMENTS ... 98
AUTHOR CONTRIBUTIONS ... 98
CHAPTER V ... 99
ABSTRACT ... 100
INTRODUCTION ... 100
METHODS ... 102
CULTIVATION OF THE “FERROVUM”-CONTAINING MIXED CULTURE JA12 ... 102
Up-scaling of pre-cultures for the transcriptome study ... 103
Experimental setup of the transcriptome study ... 103
Cell harvest from large culture volumes ... 106
EXTRACTION OF TOTAL RNA ... 106
LIBRARY CONSTRUCTION AND SEQUENCING ... 107
DATA ANALYSIS ... 107
Processing of raw data ... 107
Quantification of gene expression levels ... 108
Functional analysis ... 108
RESULTS ... 108
CULTIVATION OF THE MIXED CULTURE JA12 IN THE MULTIPLE BIOREACTOR SYSTEM ... 108
Growth monitoring ... 108
Microbial composition ... 111
RNA SEQUENCING (RNA-SEQ) ... 112
FUNCTIONAL CATEGORIZATION OF EXPRESSED GENES ... 113
Functional assignment of highly expressed genes ... 117
Functional assignment of poorly expressed genes ... 121
COMPARISON OF EXPRESSION LEVELS OF GENES PREDICTED TO BE INVOLVED IN OXIDATIVE STRESS MANAGEMENT ... 122
DISCUSSION ... 124
METABOLIC PATHWAYS RELEVANT UNDER CULTURE CONDITIONS MIMICKING THE NATURAL CONDITIONS IN THE MINE WATER TREATMENT PLANT ... 125
Novel insights into the energy metabolism of “Ferrovum” sp. JA12 ... 125
Insights from poorly expressed genes ... 126
VARIATION OF GENE EXPRESSION PATTERNS UNDER THE DIFFERENT CONDITIONS ... 128
EVALUATION OF THE EXPERIMENTAL SET-UP INVOLVING THE MULTIPLE BIOREACTOR SYSTEM ... 129
CONCLUDING REMARKS: SIGNIFICANCE OF THE PRESENT TRANSCRIPTOME STUDY ... 130
ACKNOWLEDGMENTS ... 131
AUTHOR CONTRIBUTIONS ... 131
CHAPTER VI ... 133
ABSTRACT ... 133
EXTENDED INSIGHTS INTO THE FERROUS IRON OXIDATION IN BETAPROTEOBACTERIA ... 133
MECHANISMS OF PHYLOGENETIC AND METABOLIC DIVERSIFICATION WITHIN THE GENUS “FERROVUM” ... 136
INFERRED ROLES OF “FERROVUM” SPP. IN THE MICROBIAL NETWORK OF THE MINE WATER TREATMENT PLANT ... 138
PERSPECTIVES ... 143
REFERENCES ... 145
SUPPLEMENTARY MATERIAL ... 170
DATA DVD ... 170
SUPPLEMENTARY MATERIAL FOR CHAPTER III ... 171
NUCLEOTIDE ACCESSION NUMBERS ... 171
PHYLOGENETIC ANALYSIS ... 171
GENOME PROPERTIES ... 173
NUTRIENT ASSIMILATION ... 174
Carbon metabolism ... 174
FERROUS IRON OXIDATION ... 176
HORIZONTAL GENE TRANSFER ... 179
SUPPLEMENTARY MATERIAL FOR CHAPTER IV ... 180
PHYLOGENETIC ANALYSIS ... 180
ASSIGNMENT OF PROTEIN-CODING GENES TO THE COG CLASSIFICATION ... 180
COMPARISON OF THE CENTRAL METABOLISM ... 181
Predicted metabolic potential of the four “Ferrovum” strains ... 181
Genes predicted to be involved in the central metabolism, energy metabolism, cell motility and stress management in the four “Ferrovum” strains ... 183
PREDICTED MOBILE GENETIC ELEMENTS IN THE GENOMES OF THE FOUR “FERROVUM” STRAINS ... 184
THE FLAGELLA AND CHEMOTAXIS GENE CLUSTER ... 184
THE UREASE GENE CLUSTER ... 185
THE CARBOXYSOME GENE CLUSTER ... 186
PUTATIVE GENOMIC ISLANDS IN “FERROVUM” SP. JA12 ... 187
Gene content of the genomic islands ... 187
Flanking sites of the putative genomic islands 1 and 2 ... 188
SUPPLEMENTARY MATERIAL FOR CHAPTER V ... 189
ORGANIZATION AND OPERATION OF THE LABFORS 5 MULTIPLE BIOREACTOR SYSTEM ... 189
INVESTIGATION OF THE MICROBIAL COMPOSITION IN THE IRON OXIDIZING MIXED CULTURE JA12 ... 192
SUPPLEMENTARY DATA OF THE TRANSCRIPTOME DATA ANALYSIS ... 193
RNA-Seq statistics ... 193
Expression strength of protein-coding genes ... 194
Expression of genes involved in carboxysome formation ... 197
Expression of a ribosomal proteins-encoding gene cluster ... 199
Expression of a gene cluster presumably involved in ferrous iron oxidation ... 202
Lowest expressed genes ... 205
Expression of genes predicted to be involved in oxidative stress response ... 206
ACKNOWLEDGMENTS ... 208
COLLEAGUES ... 208
ERFOLGSTEAM “JUNGE FRAUEN AN DIE SPITZE” (“YOUNG WOMEN TO THE TOP“) ... 208
FAMILY AND FRIENDS ... 209
FUNDING ... 209
CURRICULUM VITAE ... 210
LIST OF PUBLICATIONS ... 212
RESEARCH ARTICLES ... 212
CONFERENCE PROCEEDINGS ... 212
ORAL PRESENTATIONS AND POSTERS ... 213
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