Global ETD Search

21	Biodiversité et histoire évolutive des Pycnogonides (Arthropoda, Pycnogonida) / Biodiversity and evolutionary history of sea spiders (Anthropoda, Pycnogonida) Sabroux, Romain 07 December 2018 (has links) Les pycnogonides sont une classe d’arthropodes marins comptant plus de 1 400 espèces, et dont nous connaissons mal la diversité et l’histoire évolutive. Cette thèse pluridisciplinaire sur les pycnogonides tropicaux s’articule autour de quatre axes de recherche : (i) description de neuf fossiles de Solnhofen (Jurassique supérieur), grâce à une nouvelle technique de visualisation des volumes ; (ii) analyses phylogénétiques des gènes CO1 et 18S à partir de 107 taxons ; (iii) séquençage Illumina par shotgun et assemblage de 103 nouveaux génomes mitochondriaux ; et (iv) taxonomie intégrative des pycnogonides de Martinique reposant sur 803 spécimens collectés lors de l’expédition Madibenthos (2016) et 172 séquences CO1. Tous les fossiles de Solnhofen étudiés sont rattachés aux pantopodes, marquant leur affinité avec la faune moderne. Deux espèces nouvelles sont décrites. Avec les fossiles de La Voulte-sur-Rhône, ils montrent que les pantopodes étaient déjà diversifiés dans des eaux profondes et lagunaires du Jurassique, suggérant une importante transition de faune entre Paléozoïque et Mésozoïque. De nombreux réarrangements du génome mitochondrial, impliquant principalement les gènes des ARNt, sont mis en évidence. Certains sont corrélés à des changements dans le biais de composition en bases qui peuvent impacter la reconstruction phylogénétique. Malgré ces problèmes, nous retrouvons la monophylie de toutes les familles excepté les Ascorhynchidae, Callipallenidae et Nymphonidae, et identifions des regroupements interfamiliaux, d’un côté entre Ammotheidae, Pallenopsidae, Endeidae et Phoxichilidiidae, et de l’autre, entre Callipallenidae et Nymphonidae. Un très grand nombre de relations intergénériques et interspécifiques est également révélé. Alors que 20 espèces étaient auparavant connues sur les côtes de Martinique, cette étude a permis de multiplier par quatre la diversité connue de l’île, soit un total de 73 espèces. Ces résultats suggèrent une diversité encore plus importante à l’échelle des Caraïbes, que l’on pensait pourtant bien explorées. / Sea spiders are a class of marine arthropods including more than 1,400 species. Their diversity and evolutionary history are still poorly known. In this thesis, tropical pycnogonids were studied using four approaches: (i) nine fossils from Solnhofen (Upper Jurassic) were examined using a new photographic technic improving visualization of body parts; (ii) for phylogeny, CO1 and 18S genes were analyzed for 107 taxa; (iii) 103 new mitochondrial genomes were assembled after Illumina shotgun sequencing; and (iv) 803 sea spiders collected during the Madibenthos expedition (2016) in Martinique were examined for integrative taxonomy using 172 CO1 sequences.All fossils from Sonhofen are shown to share strong affinities with the modern fauna, as they were identified as belonging to Pantopoda. Two new species are described. Together with fossils from La Voulte-sur-Rhône, these results suggest that Pantopoda were already diversified in shallow and deep Jurassic waters, indicating that an important faunal transition occurred between Palaeozoic and Mesozoic. The mitochondrial genome of sea spiders shows many different gene orders and most of the gene rearrangements involve tRNA genes. Some are correlated with changes in base composition bias, which can be misleading for phylogenetic reconstruction. Despite these problems, all families but Ascorhynchidae, Callipallenidae and Nymphonidae were found to be monophyletic. Furthermore, our analyses provide evidence for several interfamilial relationships (between Ammotheidae, Pallenopsidae, Endeidae and Phoxichilidiidae; and between Callipallenidae and Nymphonidae), and for many intergeneric and interspecific relationships. While only 20 pycnogonid species were previously known from Martinique, the number of species was multiplied by four after our study, i.e. 73. These results suggest that many species still remain to be discovered in the Caribbean Sea, whereas this region was thought to be well-explored regarding sea spiders. Pantopoda Solnhofen Phylogénie moléculaire Génome mitochondrial Martinique Taxonomie intégrative Pantopoda Solnhofen Molecular phylogeny Mitochondrial genome Martinique Integrative taxonomy
22	Genomas acessórios da alga Antártica Prasiola Crispa: inferências estruturais e filogenéticas Carvalho, Evelise Leis 19 May 2015 (has links) Submitted by Ana Damasceno (ana.damasceno@unipampa.edu.br) on 2016-11-07T16:30:36Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Dissertação - Evelise Carvalho.pdf: 2321912 bytes, checksum: 3957e800afc8b54ee2d2bc427c9dffd6 (MD5) / Made available in DSpace on 2016-11-07T16:30:36Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Dissertação - Evelise Carvalho.pdf: 2321912 bytes, checksum: 3957e800afc8b54ee2d2bc427c9dffd6 (MD5) Previous issue date: 2015-05-19 / Algas verdes da classe Trebouxiphyceae estão entre os organismos presentes no continente Antártico, onde a espécie mais relatada é a macroalga verde Prasiola crispa (Lightfoot) Kützing. Considerada um organismo extremófilo, pois se desenvolve com muito sucesso no habitat extremo da Antártica, ainda são raros na literatura dados moleculares sobre esta espécie, o que impede uma avaliação sobre sua taxonomia e posição filogenética. Com o advento das tecnologias de sequenciamento de nova geração, os genomas de organelas tornaram-se uma grande ferramenta para estudos de filogenia, pois fornecem inúmeros dados filogenéticos, sequências de proteínas e nucleotídeos e também informações sobre conteúdo gênico e arquitetura. Neste trabalho, foi determinada a sequência dos genomas do cloroplasto (cpDNA) e mitocondrial (mtDNA) de P. crispa, com o intuito de inferir as relações evolutivas deste organismos com outras espécies de plantas verdes, bem como uma análise estrutural. Os genomas plastidial e mitocondrial foram sequenciados por Macrogen Service (SolexaIllumina Hi-Seq 2500). A montagem, anotação, alinhamento, construção da filogenia e análise sintênica foram realizados in silico com softwares específicos. O cpDNA e mtDNA P. crispa apresentam 196.502 pb e 89.819 pb, respectivamente. Estes genomas acessórios apresentam 21 genes putativos relacionados com a fotossíntese e 18 genes relacionados com o metabolismo oxidativo. A análise filogenômica baseada no cpDNA demonstrou que P. crispa agrupou com alga trebouxiophyceae Prasiolopsis sp. formando o clado Prasiola juntamente com Stichococcus bacilaris. Nossos resultados para filogenômica embasada no mtDNA revelam que P. crispa agrupa com as outras espécies da classe Trebouxiphyceae. A análise de sintenia do cpDNA e mtDNA de P. crispa com a espécies de plantas verdes relacionadas evolutivamente demonstram que estes organismos apresentam poucos blocos gênicos sintênicos. Este trabalho pioneiro com a alga P. crispa, demonstra que os genomas acessórios suprem uma gama de dados moleculares que podem ser utilizados para estudos filogenômicos. Além disto, as informações geradas a partir do sequenciamento do cpDNA e mtDNA de P. crispa fornecem um aporte para estudos futuros mais aprofundados / Green algae from Trebouxiophyceae class are among the organisms in the Antarctic continent, where the most reported species is the green macroalga Prasiola crispa (Lightfoot) Kützing. This algae is considered an extremophile organism because develops successfully in the harsh Antarctic habitat, however studies reporting molecular data of this species are still lacking in the literature, which prevents an assessment of their correct taxonomy and phylogenetic position. With the advent of next generation sequencing technologies, it because easier to obtain molecular information as for example from organelle genomes making them a great tool for taxonomic studies because they provide a great number of, phylogenetic data, nucleotides, protein sequences, gene content and architecture information. In this study, we determined the sequence of the chloroplast (cpDNA) and mitochondrial (mtDNA) genome of P. crispa in order to infer the evolutionary relationships of the organisms with other species of green plants, as well as a structural analysis. Plastid and mitochondrial genome was sequenced by Macrogen Service (Illumina Solexa Hi-Seq 2500). The genome assembly, annotation, sequences alignment, phylogeny construction, and structural analyses were performed in silico with specific softwares. Plastid and Mitochondrial genomes have a total length of 196,502 bp and 89,819 bp, respectively. These genomes presented 21 putative photosynthesis related genes and 18 oxidative metabolism related genes, respectively. Phylogenetic analysis based on the cpDNA demonstrated that P. crispa grouped with Trebouxiophyceae algae Prasiolopsis sp. forming the Prasiola clade along with Stichococcus bacilaris. Our results for phylogenetic analysis grounded in mtDNA show that P. crispa groups with other species of Trebouxiphyceaen alga. Synteny analysis of P. crispa cpDNA and mtDNA with evolutionarily related species of green plants shows that these organisms have few syntenic gene blocks. This pioneering work with P. crispa provided the accessories genomes which suppled a range of molecular data that can be employed to taxonomic studies. In addition, the information generated from the sequencing of cpDNA and mtDNA of P. crispa provide a contribution for further studies. Prasiola crispa Genoma mitocondrial Genoma do cloroplasto Análise filogenômica Sequenciamento de nova geração Mitochondrial genome Chloroplast genome Phylogenomic analysis Next generation sequencing
23	Molekulární analýza mitochondriálního genomu \kur{Diuraphis noxia} (Aphididae) / Molecular analysis of the mitochondrial genom of \kur{Diuraphis noxia} (Aphididae) CHUNDELOVÁ, Daniela January 2012 (has links) The complete sequence of mitochondrial DNA from Diuraphis noxia was obtained and characterized. The mitogenome contains a standard set of 13 protein-coding genes, 19 tRNA genes, 2 ribosomal RNA genes. A+T-rich and ?repets? regions in the same order as those of the other analyzed aphids. Comparison to mtDNAs from other Sternorrhyncha species obtained from GenBank revealed possible markers for studies on population differentiation. Phylogenetic analysis using parsimony and maximum likelihood confirmed the classification of Diuraphis noxia into the Aphididae.
24	Employing Limited Next Generation Sequence Data for the Development of Genetic Loci of Phylogenetic and Population Genetic Utility Evenstone, Lauren 02 July 2015 (has links) Massively parallel high throughput sequencers are transforming the scientific research by reducing the cost and time necessary to sequence entire genomes. The goal of this project is to produce preliminary genome assemblies of calliphorid flies using Life Technologies’ Ion Torrent sequencing and Illumina’s MiSeq sequencing. I located, assembled, and annotated a novel mitochondrial genome for one such fly, the little studied Chrysomya pacifica that is central to one hypothesis about blow fly evolution. With sequencing data from Chrysomya megacephala, its forensically relevant sister species, much insight can be gained by alignments, sequence and protein analysis, and many more tools within the CLC Genomics Workbench software program. I present these analyses here of these recently diverged species. Genetic PCR Chrysomya Mitochondrial genome Next Generation Sequencing NGS CLC genomics Blowfly Bioinformatics Computational Biology Entomology Genetics Genomics Molecular Genetics
25	Molecular Morphology: Phylogenetically Informative Characters Derived from Sequence Data Donath, Alexander 07 July 2011 (has links) A fundamental problem in biology is the reconstruction of the relatedness of all (extant) species. Traditionally, systematists employ visually recognizable characters of organisms for classification and evolutionary analysis. Recent developments in molecular and computational biology, however, lead to a whole different perspective on how to address the problem of inferring relatedness. The discovery of molecules, carrying genetic information, and the comparison of their primary structure has, in a rather short period of time, revolutionized our understanding of the phylogenetic relationship of many organisms. These novel approaches, however, turned out to bear similar problems as previous techniques. Moreover, they created new ones. Hence, taxonomists came to realize that even with this new type of data not all problematic relationships could be unambiguously resolved. The search for complementary approaches has led to the utilization of rare genomic changes and other characters which are largely independent from the primary structure of the underlying sequence(s). These “higher order” characters are thought to be evolutionary conserved in certain lineages and largely unaffected by primary sequence data-based problems, allowing for a better resolution of the Tree of Life. The central aim of this thesis is the utilization of molecular characters of higher order in connection with their consistent and comparable extraction from a given data set. Two novel methods are presented that allow such an inference. This is complemented with the search for and analysis of known and novel molecular characteristics to study the relationships among Metazoa, both intra- as well as interspecific. The first method tackles a common problem in phylogenetic analyses: the inference of reliable data set. As part of this thesis a pipeline was created for the automated annotation of metazoan mitochondrial genomes. Data thus obtained constitutes a reliable and standardized starting point for all downstream analyses, e.g. genome rearrangement studies. The second method utilizes a subclass of gaps, namely those which define an approximate split of a given data set. The definition and inference of such split-inducing indels (splids) is based on two basic principles. First, indels at the same position, i.e. sharing the same end points in two sequences, are likely homologous. Second, independent single-residue insertions and deletions tend to occur more frequently than multi-residue indels. It is shown that trees based on splids recover most of the undisputed monophyletic groups while influence of the underlying alignment algorithm is relatively small. Mitochondrial markers are a valuable tool for the understanding of small and large scale population structure. The non-coding control region of mitochondrial DNA (mtDNA) often contains a higher amount of variability compared to genes encoding proteins and non-coding RNAs. A case study on a small scale population structure investigates the control region of the European Fire-bellied Toad in order to find highly variable parts which are of potential importance to develop informative genetic markers. A particular focus is placed on the investigation of the evolutionary dynamics of the repetitive region at an inter- and intraspecific level. This includes understanding mechanisms underlying its evolution, i.e. by exploring the impact of secondary structure on slipped strand mispairing during mtDNA replication. The 7SK RNA is a key player in the regulation of polymerase II (Pol-II) transcription, interacting with at least three known proteins: It mediates the inhibition of the Positive Transcription Elongation Factor b (P-TEFb) by the HEXIM1/2 proteins, thereby repressing transcript elongation by Pol-II. A highly specific interaction with LARP7 (La-Related Protein 7), on the other hand, regulates its stability. 7SK RNA is capped at its 5’ end by a highly specific methyltransferase MePCE (Methylphosphate Capping Enzyme). Employing sequence and structure similarity it is shown that the 7SK RNA as well as its protein binding partners have a much earlier evolutionary origin than previously expected. Furthermore, this study presents a good illustration of the pitfalls of using markers of higher order for phylogenetic inference. info:eu-repo/classification/ddc/000 ddc:000
26	Origin of the Egyptian Domestic Cat Johansson, Carolin January 2012 (has links) This study presents mitochondrial genome sequences from 22 Egyptian house cats with the aim of resolving the uncertain origin of the contemporary world-wide population of Domestic cats. Together with data from earlier studies it has been possible to confirm some of the previously suggested haplotype identifications and phylogeny of the Domestic cat lineage. Moreover, by applying a molecular clock, it is proposed that the Domestic cat lineage has experienced several expansions representing domestication and/or breeding in pre-historical and historical times, seemingly in concordance with theories of a domestication origin in the Neolithic Middle East and in Pharaonic Egypt. In addition, the present study also demonstrates the possibility of retrieving long polynucleotide sequences from hair shafts and a time-efficient way to amplify a complete feline mitochondrial genome. Feline domestication cat in ancient Egypt mitochondrial genome Felis silvestris libyca History and Archaeology Historia och arkeologi Evolutionary Biology Evolutionsbiologi
27	Emprego de técnicas morfométricas, espectrometria MALDI-TOF e sequenciamento genético para classificação e filogenia de Culicidae (Diptera). / Use of morphometric techniques, MALDI-TOF spectrometry and genetic sequencing for classification and phylogeny of Culicidae (Diptera). Lorenz, Camila 20 June 2017 (has links) Os mosquitos (Culicidae) compreendem um grupo monofilético, mas algumas relações dentro da família ainda não estão totalmente resolvidas. O objetivo deste trabalho foi elaborar uma hipótese filogenética para os gêneros de Culicidae baseada nos caracteres de variabilidade genética e perfil proteico. Além disso, foi analisado como a forma da asa evoluiu dentro desse grupo. Utilizou-se 76 espécies diferentes abrangendo 20 gêneros. O formato alar mostrou-se um bom marcador taxonômico, já que as análises em cada tribo ou gênero revelaram grupos naturais. Análises com genes nucleares mostraram Anophelinae como grupo irmão de todos os outros Culicinae. A topologia construída com genomas mitocondriais revelou grupos bem suportados, com alguns discordantes da filogenia atual. Foram identificados 24 biomarcadores nas espécies analisadas usando espectrometria MALDI-TOF, que podem ter potencial na identificação taxonômica. A morfologia, a genética e os perfis proteicos não foram concordantes, e isso pode estar ocorrendo devido a taxas evolutivas distintas entre eles. / Mosquitoes (Culicidae) comprise a monophyletic group, but some relationships within the family are not fully resolved. The aim of this study was to elaborate a phylogenetic hypothesis for the genera Culicidae based on the characters of genetic variability and protein profile. In addition, it was analyzed how wing shape evolved within this group. It was used 76 different species covering 20 genera. The wing shape showed to be a good taxonomic marker, because the analyzes in each tribe or genus revealed natural groups. Analyzes with nuclear genes showed Anophelinae as sister group of all other Culicinae. The topology constructed with mitochondrial genomes revealed well supported groups, with some discordant of the current phylogeny. Twenty-four biomarkers were identified in the species analyzed using MALDI-TOF spectrometry, which may have potential in taxonomic identification. Morphology, genetics, and protein profiles were inconsistent, and this may be occurring due to distinct evolutionary rates between them. Evolução Evolution Genoma Mitocondrial Mitochondrial Genome Morfometria Geométrica Alar Mosquitoes Mosquitos Perfil Proteico Protein Profile Purifying Selection Seleção Purificadora Translocação Translocation Wing Geometric Morphometry
28	Analysis of components of the mitochondrial transcription machinery in Arabidopsis thaliana Kühn, Kristina 11 April 2006 (has links) In der vorliegenden Arbeit wurde die Transkription mitochondrialer Gene durch die kernkodierten Phagentyp-RNA-Polymerasen RpoTm und RpoTmp der Pflanze Arabidopsis untersucht. Im Mitochondriengenom von Arabidopsis wurden f r 12 Gene Promotoren bestimmt. Diese zeigten verschiedene Sequenzelemente und wichen meist von der f r Dikotyle publizierten Konsensussequenz ab. F r die Mehrheit der Gene wurden multiple Promotoren identifiziert. Es wurden weiterhin Promotoren nachgewiesen, welche die Transkription vermutlich nicht funktioneller Sequenzen aktivieren. Architektur, Lokalisation und Nutzung mitochondrialer Promotoren implizieren eine wenig stringente Kontrolle der Transkriptionsinitiation in Arabidopsis-Mitochondrien. Zur Analyse der Funktionen von RpoTm und RpoTmp wurde ein in vitro-Transkriptionssystem entwickelt. Da RpoT-Enzyme m”glicherweise Kofaktoren ben”tigen, wurde in Arabidopsis nach Genen potentieller mitochondrialer Transkriptionsfaktoren gesucht. Als mitochondriales Protein mit Žhnlichkeit zu mtTFB, einem essentiellen Transkriptionsfaktor in Hefemitochondrien, wurde MetA identifiziert. In in vitro-Assays initiierte RpoTm an verschiedenen Promotoren die Transkription, w„hrend RpoTmp keine signifikante Promotorspezifit„t zeigte. Die spezifische Promotornutzung durch RpoTm erforderte superhelikale DNA. Weder RpoTm noch RpoTmp wurde durch MetA stimuliert. Eine mtTFB-„hnliche Funktion von MetA ist daher unwahrscheinlich. F r MetA wurde ausserdem eine engere phylogenetische Beziehung zu nukle„ren rRNA-Dimethylasen als zu mtTFB ermittelt. Die hier vorgestellten Studien belegen die Transkription mitochondrialer Gene in Arabidopsis durch RpoTm; f r RpoTmp ist eine nicht-redundante Transkriptionsfunktion denkbar. Die Kofaktor-unabh„ngige Spezifit„t von RpoTm f r verschiedene Promotoren und die wenig stringente Initiationskontrolle in vivo legen nahe, dass eine individuelle Regulation mitochondrialer Gene in Arabidopsis auf Transkriptionsebene nicht erfolgt. / Mitochondria depend on a nucleus-encoded transcription machinery to express their genome. The present study examined the transcription of mitochondrial genes by two nucleus-encoded phage-type RNA polymerases, RpoTm and RpoTmp, in the plant Arabidopsis. For selected mitochondrial genes in Arabidopsis, transcription initiation sites were determined. Most genes were found to possess multiple promoters. The identified promoters displayed diverse sequence elements and mostly deviated from a nonanucleotide consensus derived previously for dicot mitochondrial promoters. Several promoters were detected that activate transcription of presumably non-functional sequences. Promoter architecture, distribution and utilization suggest a non-stringent control of transcription initiation in Arabidopsis mitochondria. An in vitro transcription system was set up to elucidate the roles of RpoTm and RpoTmp. Since RpoT enzymes possibly require auxiliary factors, the Arabidopsis genome was screened for potential cofactors of phage-type RNA polymerases. A mitochondrial protein (MetA) with similarity to mtTFB, an essential transcription factor in yeast mitochondria, was identified. In in vitro transcription studies, RpoTm recognized various promoters whereas RpoTmp displayed no significant promoter specificity. Promoter recognition by RpoTm depended on supercoiled DNA templates. Transcription initiation by RpoTm or RpoTmp was not affected by MetA, indicating that MetA is not functionally equivalent to mtTFB. Besides, MetA was found to be more closely related to non-mitochondrial rRNA dimethylases than to mtTFB. The present study establishes RpoTm to transcribe mitochondrial genes; RpoTmp may have a non-overlapping transcriptional role in mitochondria. The cofactor-independent promoter specificity of RpoTm and the apparently non-stringent control of transcription initiation in vivo imply that mitochondrial genes in Arabidopsis may not be regulated individually at the transcriptional level. Promotor Pflanzenmitochondrien Mitochondriengenom Transkription Phagentyp-RNA-Polymerase promoter plant mitochondria mitochondrial genome transcription phage-type RNA polymerase 570 Biowissenschaften, Biologie 32 Biologie WE 3100 WG 1800 ddc:570
29	Contribution de la paléogénétique et de la paléogénomique à l’étude des sites archéologiques / Contribution of palaeogenetics and palaeogenomics to archaeological site studies Bon, Céline 23 September 2011 (has links) La Paléogénétique a pour but l’analyse de l’ADN de pièces archéologiques, et le renouveau de cette discipline tend à intégrer une dimension génomique par le séquençage massif des spécimens les mieux préservés. Les grottes, dont la température reste fraîche et constante, permettent la conservation de l’ADN. Nous avons analysé des échantillons du Pléistocène conservés dans des grottes, dont un site archéologique majeur, la Grotte Chauvet. L’étude a porté sur deux espèces, l’ours des cavernes, Ursus spelaeus et l’hyène des cavernes, Crocuta crocuta spelaea.À partir d’un échantillon particulièrement bien conservé de la Grotte Chauvet, nous avons séquencé le génome mitochondrial de l’ours des cavernes et établi la phylogénie de cette espèce éteinte. Nous avons montré que l’ours des cavernes est une espèce proche des ours bruns et polaires dont elle s’est séparée il y a 1,6 million d’années. Nous avons ensuite analysé la région de contrôle mitochondrial de plusieurs spécimens des Grottes Chauvet et des Deux-Ouvertures datés de 28 000 à 32 000 ans. La forte homogénéité génétique de cette population ardéchoise pourrait être corrélée à la disparition régionale de l’espèce.Enfin, nous avons réalisé l’analyse génomique de coprolithes d’hyène des cavernes. Nous avons mis en évidence des quantités importantes d’ADN nucléaire et mitochondrial dans les coprolithes et reconstitué le premier génome mitochondrial complet d’hyène des cavernes. La présence d’ADN de cerf élaphe, Cervus elaphus, nous permet de décrire une relation proie-prédateur du Pléistocène. / Palaeogenetics aims at analysing DNA from archaeological remains. New genetic sequencing technologies revitalize the discipline through genomic analysis. Because of cool and constant temperature, cave sites allow the preservation of ancient DNA. We carried out DNA analysis of Pleistocene specimens originating from cave sites, especially the Chauvet cave. We studied samples from two extinct species, the cave bear, Ursus spelaeus, and the cave hyena, Crocuta crocuta spelaea.Using a well-preserved sample from Chauvet cave, we characterized the 16,810 bp-long mitochondrial genome of the extinct cave bear, and established its phylogeny. We were able to ascertain that the cave bear is a sister-species to the brown and polar bears, and that the two lineages split about 1.6 million years ago. We also sequenced mitochondrial control region fragments of Chauvet and Deux-Ouvertures cave bear samples. These Ardèche bear specimens, dated back to 28,000-32,000 years BP, display strong genetic homogeneity that may be related to the imminent species extinction.Finally, we analysed cave hyena coprolites from the Coumère Cave by metagenomic DNA sequencing. As these fossilized feces still contain a high amount of mitochondrial and nuclear DNA, we were able to decipher the first complete mitochondrial genome for the cave hyena. We found DNA from the red deer, Cervus elaphus, thus depicting a Pleistocene predator-prey relationship. ADN ancien Grotte Chauvet Ours des Cavernes Hyène des Cavernes Coprolithe Génome mitochondrial Pléistocène Ancient DNA Chauvet Cave Cave Bear Cave Hyena Coprolite Mitochondrial genome Pleistocene
30	Mitogenomic analysis of decapod phylogeny Shen, Hong 15 May 2012 (has links) Für eine umfassende Untersuchung der Phylogenie der Decapoda wurden von mir die mitochondrialen Genome von 13 Dekapoden sequenziert. Zusammen mit den in der GenBank verfügbaren Sequenzen von 31 Dekapoden und dem von der Universität Bonn zur Verfügung gestellten mitochondrialen Genom von Dromia personata deckt dieser Datensatz alle großen Teilgruppen der Decapoda ab. Maximum likelihood (ML)-Analysen und Bayesian inference (BI)-Analysen der Nucleotidsequenzen und Aminosäuresequenzen ergaben bezüglich der Verwandtschaft der hochrangigen Taxa ähnliche Topologien: (((((((Anomala, Brachyura), Thalassinida: Gebiidea) Thalassinida: Axiidea), Astacidea), Achelata), Stenopodidea), Caridea), Dendrobranchiata). Gleichwohl wurde mit den Polychelida ein problematisches Taxon mit ungewissen Verwandtschaftsbeziehungen identifiziert. Auf der Eben der Unterordnungen sind die Thalassinida paraphyletisch, was mit einigen morphologischen und einigen jüngeren molekularen Studien konsistent ist, alle anderen gebräuchlichen Taxa sind monophyletisch. Es handelt sich um eine Inversion, die sich vom S-E-F tRNA cluster bis zum I-Q-M tRNA cluster erstreckt und in Procambarus fallax f. virginalis und Homarus gammarus auftritt. Im Vergleich mit dem Genarrangement des Limulus polyphemus zeigen beide Astaciden in dieser Region exakt dieselbe Inversion wie der Priapulide Priapulus caudatus, die daher innerhalb der Ecdysozoa als konvergent angenommen werden muss. Auch neben dieser Inversion innerhalb der Astacidea zeigen die Genarrangements aller verfügbaren Dekapoden mehrere interessante Eigenschaften. Um die beobachteten einzigartigen genomischen Eigenschaften zu erklären, schlage ich mit dem „inversion triggered duplication“ Model ein neues Modell für Gen-Rearrangements vor. / For a comprehensive study of decapod phylogeny at the mitochondrial genome level, I have sequenced the mitochondrial genome of 13 decapods. Together with available sequences of 31 decapods from GenBank, and the mitochondrial genome of Dromia personata provided by the Bonn University, the dataset now cover all major decapod taxa. Maximum likelihood (ML) and Bayesian inference (BI) of the nucleotide and amino acid datasets reveal similar topologies at the higher level relationships: (((((((Anomala, Brachyura), Thalassinida: Gebiidea) Thalassinida: Axiidea), Astacidea), Achelata), Stenopodidea), Caridea), Dendrobranchiata). Nevertheless, one problematic taxon, Polychelida, with ambiguous affinities is recognized. At the lower level, most taxa are monophyletic, whereas the Thalassinida is paraphyletic, which is consistent with some morphological and molecular results. An inversion spanning from S-E-F tRNA cluster to the I-Q-M tRNA cluster occurred in Procambarus fallax f. virginalis, Homarus gammarus, and one priapulid Priapulus caudatus. Compared with the gene arrangement of the horseshoe crab Limulus polyphemus, both astacids and the priapulid exhibit the same inversion, which is therefore supposed to be a convergent event of the clade Astacidea and Priapulida among Ecdysozoa. Other than this notable feature observed in astacids, the gene arrangements in all available decapods show some interesting characters. To explain these unique genomic features observed here, a new gene rearrangement model is proposed, which is called the “inversion triggered duplication” model. Phylogenie Decapoda mitochondriales Genom molekulare Evolution mitochondrial genome Decapoda phylogeny molecular evolution 570 Biowissenschaften, Biologie 32 Biologie WQ 2850 ddc:570

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