Facteurs de risques de développer une maladie auto-immune chez les hommes? : cas particulier de la polyarthrite rhumatoïde / Risk factors for men to develop an autoimmune disease : special case of rheumatoid arthritis

Martin, Gabriel

20 December 2017

Peu d’hommes sont touchés par les maladies auto-immunes (MAI), maladies où la réponse immune est très forte et attaque l’hôte. La polyarthrite rhumatoïde (PR), une maladie inflammatoire chronique, suit cette règle avec 3 femmes pour 1 homme atteint. Dans cette thèse, nous analysons les différences en fonction du sexe et les raisons d’un tel biais. D’après des observations chez l’animal, nous nous sommes demandés si les rares hommes atteints de PR ont une augmentation du nombre de copies d’un gène impliqué dans la réponse immune et porté par le chromosome (Chr) X. Contrairement aux femmes, les hommes n’ont qu’un Chr X et de ce fait qu’une copie de ce gène. Cependant, nous avons montré par différentes techniques, que ces patients avaient 10% de cellules portant 2 copies de ce gène, et que cette augmentation venait de cellules ayant 2 Chr X. Nos recherches soulignent l’importance du Chr X dans l’auto-immunité et ouvrent un nouveau champ d'investigation pour les hommes atteints de MAI. / Few men are affected by autoimmune diseases (AID), diseases where the immune response is very strong and attacks the host. Rheumatoid arthritis (RA), a chronic inflammatory disease, follows this rule with 3 women affected for 1 man. In this thesis, we analyse gender differences and the reasons for such bias. Based on observations in animals, we wondered whether the rare men with RA have an increased copy number of a gene involved in the immune response and carried by the X chromosome (Chr). Unlike women, men have only one X Chr and one copy of this gene. However, we showed by different techniques that these patients had 10% of cells carrying 2 copies of this gene, and that this increase came from cells with 2 X Chr. Our research emphasizes the importance of the X Chr in autoimmunity and opens up a new field of investigation for men with AID.

Polyarthrite Rhumatoïde

Chromosome X

TLR7 et TLR8

Hommes

Biais sexuel

Variation du nombre de copies

Rheumatoid Arthritis

X chromosome

TLR7 and TLR8

Men

Gender Bias

Copy number variation

612

CXCR4 : nouvelle cible thérapeutique de la cellule leucémique ? : rôle du couple SDF-1 / CXCR4 dans la leucémie aiguë / CXCR4 : a new therapeutic target of the leukaemic cell ? : role of the SDF-1/CXCR4 axis in acute leukaemia

Tavernier-Tardy, Emmanuelle

16 December 2011

CXCR4, récepteur de la chimiokine SDF-1 (stromal cell-derived factor 1) joue un rôle capital dans l’hématopoïèse normale mais aussi dans la biologie de la cellule leucémique. Ce récepteur est exprimé à la surface des blastes et participe à « l’ancrage » de la cellule souche leucémique (CSL) au sein de la niche médullaire. Les interactions de la CSL avec le micro-environnement sont source de signaux de survie et de résistance à l’apoptose. La première partie de ce travail correspond à deux analyses en cytométrie en flux de l’expression de CXCR4 et de molécules d’adhérence sur des échantillons diagnostiques de LAM (leucémie aiguë myéloïde). Ce travail confirme la valeur pronostique péjorative de l’expression de CXCR4 et propose un modèle de stratification pronostique des patients, en fonction de leur phénotype d’adhérence. La deuxième partie s’intéresse à l’identification de potentielles cibles thérapeutiques dans un modèle de LAL à chromosome Philadelphie, pathologie au pronostic sombre malgré les progrès thérapeutiques liés aux ITK (inhibiteurs de tyrosine kinase). L’inhibition de CXCR4 par l’AMD3100 permet de potentialiser l’efficacité de l’aracytine et du dasatinib dans un modèle de co-culture stromale avec la lignée SUPB15. Une deuxième piste de ciblage thérapeutique de la LAL Phi+ est l’inhibition de la protéine chaperone HSP90. Une expression forte de HSP90 (dans les LAL Phi+ par rapport aux LAL Phi-) s’associe à une plus grande cytotoxicité du 17-AAG. En conclusion, CXCR4 est un récepteur clé de la cellule leucémique. L’étude de son niveau d’expression permet des stratifications pronostiques des patients et son blocage en fait une cible thérapeutique prometteuse / CXCR4, receptor of the chemokine SDF-1 (stromal cell-derived factor 1) plays a major role in the normal hematopoiesis but also in the biology of the leukaemic cell. This receptor is expressed on the surface of blasts and is a key molecule in "the anchoring" of the leukaemic stem cell (LSC) within the bone marrow niche. The interactions of the LSC with the bone marrow microenvironment promote survival signals and drug resistance. The first part of this work consists of two flow cytometry analyses of CXCR4 and adhesion molecules expression in patients with AML (acute myeloid leukaemia) at diagnosis. The results confirm that CXCR4 expression is associated with poor prognosis and this work proposes to stratify patients, according to their adhesive phenotype, in order to establish risk-adapted strategies. The second part deals with the identification of potential therapeutic targets in a model of ALL with chromosome Philadelphia. Despite therapeutic improvements with the ITK (tyrosine kinase inhibitors) era, long term survival remains poor. The inhibition of CXCR4 by the AMD3100 enhances the sensitivity of SUPB15 cell line to cytarabine and dasatinib therapy in a model of stromal co-culture. A second way of therapeutic targeting of the ALL Phi + is the inhibition of the heat-shock protein HSP90. High percentage of HSP90-positive cells (in Ph+ ALL samples) is associated with high sensitivity to 17-AAG. In conclusion, CXCR4 appears as a key receptor of the leukaemic cell. The analysis of its level of expression allows prognostic stratifications and its blockade represents a promising therapeutic target

CXCR4

Molécules d’adhérence

Leucémie aiguë

Chromosome Philadelphie (Bcr- Abl)

Facteurs pronostiques

Cible thérapeutique

CXCR4

Adhesion molecules

Acute leukaemia

Philadelphia chromosome (Bcr-Abl)

Prognostic factors

Therapeutic target

615.5

Estudos cariotípicos em Asteraceae da Reserva Biológica Municipal (RBM) Serra do Japi (SP) / Karyotypic studies in Asteraceae from the Municipal Biological Reserve (MBR) of Japi mountain range (SP)

Braga, Klenya Rosa Rocha, 1978-

09 September 2014

Orientador: Eliana Regina Forni Martins / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-25T23:43:47Z (GMT). No. of bitstreams: 1 Braga_KlenyaRosaRocha_D.pdf: 3638781 bytes, checksum: f3a0b3548e4388cdabb276fb9662c32a (MD5) Previous issue date: 2014 / Resumo: A família Asteraceae (Compositae) possui cerca de 23.000 espécies e 1.600 gêneros. Sua distribuição é cosmopolita, com representantes em todos os continentes. Sua maior diversidade está na América do Sul. A família está bem representada no Brasil (cerca de 300 gêneros e 2.000 espécies), ocorrendo principalmente em formações abertas, como cerrados e campos. Cassini, em 1817 foi o primeiro a propor um sistema de classificação para a família, que foi alterado por vários autores. Atualmente a família está dividida 12 subfamílias e 43 tribos. Dentre os parâmetros que podem ser obtidos a partir de estudos citogenéticos, o número cromossômico é o mais amplamente utilizado. Estima-se que cerca de 61,6% dos gêneros de Asteraceae possuem pelo menos uma contagem de números cromossômicos, sendo relatada grande variação (2n= 4 a ca. 432). O número básico x=9 é o mais frequente. Apesar do número considerável de trabalhos referentes à contagem cromossômica e análise de cariótipos de espécies de Asteraceae, este número ainda é muito pequeno quando comparado com a riqueza de espécies da família. No que diz respeito aos estudos cromossômicos utilizando bandamento cromossômico e hibridização de DNA in situ, os trabalhos são mais escassos. Diante da riqueza de espécies, da diversidade cariotípica da família e da carência de dados citogenéticos para subsidiar a reavaliação das delimitações de seus grupos taxonômicos, este trabalhou objetivou caracterizar o cariótipo de diversas espécies nativas de Asteraceae proveniente da Reserva Biológica Municipal (RBM) da Serra do Japi uma das últimas grandes áreas de floresta contínua do Estado de São Paulo, que apresenta uma grande diversidade de espécies de Asteraceae. Foram feitos a determinação do número cromossômico, o detalhamento de caracteres morfológicos dos cromossomos (tamanho e forma) e a aplicação de técnicas de bandamento CMA/DAPI e técnica de FISH. Foi determinado o número cromossômico de 35 espécies, as quais estão distribuídas em 14 tribos e 26 gêneros, com variação de 2n=16 a 72. As tribos mais bem representadas foram Eupatorieae (9spp.), Vernonieae (6spp.) e Astereae (5spp.). Seis novas contagens foram determinadas e quatro divergiram de relatos anteriores: Bidens subalternans (2n=72), Chromolaena odorata (2n=30), Praxelis kleineoides (2n=30) e Vernonia diffusa (2n=34). Os cariótipos podem ser considerados moderadamente simétricos, com o índice TF% variando de 29 em Praxelis kleineoides (2n=30) a 44 into G. intermedia (2n=20). Dezesseis espécies foram submetidas à técnica de bandamento CMA/DAPI. Houve variação de 2 a 12 bandas CMA+/DAPI-. A técnica de FISH revelou diferenças cariotípicas em cinco espécies estudadas: Conyza sumatrensis var. leotheca, Bidens pilosa, Mikania sp, Vernonia diffusa e V. remotiflora, que apresentaram 2 a 6 sítios de DNAr 45S e 2 a 3 sítios de DNAr 5S. Nossos dados de bandamento CMA/DAPI e FISH são inéditos para todas as espécies estudadas / Abstract: The Asteraceae family (Compositae) comprises around 23.000 species and 1.600 genera. Its distribution is comospolitan, with representatives in all continents. The highest diversity is found in South America. The family is well represented in Brazil (with 300 genera and 2.000 species), mainly occurring in the opened formations, like savannas and fields. Cassini, in 1817 was the first to propose a system of classification for the family, which was later changed by several authors. Nowadays the family is divided in 12 subfamilies and 43 tribes. Among the parameters that can be obtained from cytogenetic studies, the number of chromosomes is the most commonly used. Its estimated that about 61,6% of Asteraceae genera have at least a count chromosome numbers, being reported wide variation (2n= 4 a ca. 432). The basic number x=9 is the most frequent. In spite of considerable number of works on the chromosomal count and karyotpe analysis from species of Asteraceae, this number is still very small when compared with species richness within the family. In respect of chromosomal studies used in the chromosome banding and in situ DNA hybridization, the works are more scarce. Before wealth of species, of karyotype diversity of family and of lack of data cytogenetics to subsidize the revaluation of delimitations of its taxonomic groups, this work aims to characterize the karyotype of several native species of Asteraceae from the Municipal Biological Reserve (MBR) of Japi, one of the last large areas of continuous forest of São Paulo, that has a great diversity of species of Asteraceae. We determined the chromosomal number, detailing the morphological characters of chromosomes (size and shape), and applied techniques of CMA/DAPI banding and FISH. We determined the chromosome number of 35 species, which are distributed in 14 tribes and 26 genera, ranging from 2n = 16-72. The most well represented tribes were Eupatorieae (9spp.), Vernonieae (6spp.) and Astereae (5spp.). Six new counts were determined and four differed from previous scores: Bidens subalternans (2n=72), Chromolaena odorata (2n=30), Praxelis kleineoides (2n=30) and Vernonia diffusa (2n=34). The karyotpes can be considered moderately symmetric, with index TF% ranging from 29 in Praxelis kleineoides (2n=30) to 44 in G. intermedia (2n=20). Sixteen species were submitted to technique of banding CMA/DAPI. There were variations of 2 to 12 CMA+/DAPI- bands. The technique of FISH revealed varied karyotypes in five species: Conyza sumatrensis var. leotheca, B. pilosa, Mikania sp, Vernonia diffusa and V. remotiflora showed 2 to 6 sites of 45S rDNA and 2 to 3 sites of 5S rDNA. Our data of banding CMA/DAPI and FISH are original for all studied species / Doutorado / Biologia Vegetal / Doutora em Biologia Vegetal

Asteraceae - Japi, Serra do (SP)

Citogenética

Número cromossômico

Cariotipos

Bandeamento cromossômico

Hibridização in situ fluorescente

Asteraceae - Japi Mountains (Brazil)

Cytogenetics

Chromosome numbers

Karytypes

Chromosome banding

Mécanismes Moléculaires de la Condensation Mitotique des Chromosomes chez la levure Schizosaccharomyces pombe / Molecular mechanism of mitotic chromosome in the fission yeast Schizosaccharamyces pombe

Fauque, Lydia

24 September 2014

La condensation mitotique des chromosomes est l'un des mécanismes assurant la transmission fidèle de l'information génétique. Les complexes condensines et leur association à la chromatine sont nécessaires à cette condensation. Cependant, les mécanismes par lesquels ces complexes s'associent aux chromosomes et contribuent à leur condensation sont mal compris. L'objectif de ma thèse était d'identifier et de caractériser des facteurs de condensation encore inconnus collaborant avec le complexe condensine présent chez S. pombe. Par un crible génétique, nous avons recherché des mutants viables lorsque le complexe condensine est complètement fonctionnel mais morts lorsque ce complexe est partiellement défectif. Nous avons ainsi identifié 7 protéines jusqu'alors jamais impliquées dans la condensation mitotique. Parmi ces dernières, nous avons identifié des protéines impliquées dans le remodelage de la chromatine et des facteurs de transcription comme Gcn5, une HAT très conservée, connue pour son rôle de coactivateur de la transcription ; suggérant un lien entre la condensation et la machinerie transcriptionnelle. Gcn5 s'associe à la chromatine au niveau des promoteurs des gènes où elle acétyle principalement H3K9, H3K14 et H3K18. Sa présence au niveau des promoteurs est directement corrélée avec le niveau de transcription des gènes correspondants. Bien que la majorité de la chromatine soit dé-acétylée et que la présence de Gcn5 soit réduite au niveau des chromosomes en mitose, des traces de H3K9 acétylée persistent au niveau de certains promoteurs. Nos résultats suggèrent que cette acétylation persistante pourrait être liée au recrutement du complexe condensine à la chromatine / From yeasts to human, Condensin is essential for mitotic chromosome condensation. However, how Condensin binds to chromatin and, in this context, shapes mitotic chromosome remain poorly understood. Mappings performed from yeasts to mouse have revealed that condensin is enriched near highly expressed genes along chromosome arms, suggesting that as yet identified features associated with transcription take part in condensin binding to chromatin. To identify factors that collaborate with Condensin we performed a synthetically lethal genetic screen in fission yeast. We searched for mutants that are alive when Condensin is fully functional but dead when Condensin is partly defective. We identified 7 proteins never known for their roles in the mitotic condensation, such as some chromatin remodelling and some transcription factors. All these results were consistent with a link between condensation and transcription. Among theses 7 proteins, we found Gcn5, which encodes a conserved HAT, well known for the role it plays as a transcriptional co-activator. Gcn5 binds to gene promoters where it acetylates mainly H3K9, K14 and K18, and its occupancy correlates with transcription rates. Remarkably, although the bulk of chromatin is de-acetylated and Gcn5 reduced from chromatin upon mitosis entry, traces of Gcn5 dependant H3K9 acetylated persist at condensin binding sites. Here, we provide evidence that Gcn5-mediated histone H3 K9 acetylation could assist the binding of Condensin to chromatin

Conensation mitotique

Condensine

Chromosome mitotique

Gcn5

Acétylation

Levure S. pombe

Mitotic condensation

Condensin

Mitotic chromosome

Gcn5

Acetylation

Yeast Schizosaccharamyces pombe

572.8

Cultivo in vitro, citogen?tica e aplica??o de fungos micorr?zicos arbusculares (Glomeromycota) no estabelecimento ex vitro de variedades e do h?brido apir?nico intraespec?fico de videira (vitis vinifera L.)

Menezes, Eiryanne Fonseca de

20 March 2013

Submitted by Ricardo Cedraz Duque Moliterno (ricardo.moliterno@uefs.br) on 2015-11-17T22:52:38Z No. of bitstreams: 1 DISSERTA??O CD EIRYANNE UEFS.pdf: 1137680 bytes, checksum: c8146db40e5cf5c055b38dd228bd86d9 (MD5) / Made available in DSpace on 2015-11-17T22:52:38Z (GMT). No. of bitstreams: 1 DISSERTA??O CD EIRYANNE UEFS.pdf: 1137680 bytes, checksum: c8146db40e5cf5c055b38dd228bd86d9 (MD5) Previous issue date: 2013-03-20 / The grapevine is one of the most important crops in the San Francisco Valley, to be an important generator of income and social development. It is noteworthy production for the domestic and foreign market, whose requirements demand the need for competitive development of new genetic material to the producer. In this case, the breeding program for cultivation in tropical conditions has employed the crossing of varieties of seedless grapes, using as support embryo rescue technique, which enables the acquisition of hybrid course. Moreover, the cytogenetic characterization of hybrids and parental emerges as a tool that can generate important data for the breeding programs of the grapevine. Counterpart, micropropagation, which is the wider applicability of the technique of tissue culture, has, as one of the many advantages, the large scale production of plants in less time than usual and pathogen-free. During the acclimatization phase of grapevine micropropagation significant losses occur. The various benefits they provide, mycorrhizal fungi are an alternative because they reduce losses, making the transition less stressful conditions in vitro to ex vitro. This study aimed to evaluate cytogenetically vine varieties and hybrids, as well as study the mycorrhizal association in ex vitro establishment of plantlets, trying to select isolates effective in promoting growth and nutrient uptake in apirenic hybrid grapesvines. / A videira representa uma das mais importantes culturas no Vale do S?o Francisco, por ser importante gerador de renda e desenvolvimento social. Destaca-se a produ??o para o mercado interno e externo, cujas exig?ncias em competitividade demandam a necessidade de desenvolvimento de novos materiais gen?ticos para o produtor. Nesse caso, os programas de melhoramento gen?tico para a cultura em condi??es tropicais tem empregado o cruzamento de variedades de uvas apir?nicas, utilizando como suporte a t?cnica de resgate de embri?es, que possibilita a obten??o de h?bridos. Por outro lado, a caracteriza??o citogen?tica de h?bridos e parentais surge como ferramenta que pode gerar dados importantes para os programas de melhoramento gen?tico da videira. Contraparte, a micropropaga??o, que ? a t?cnica de maior aplicabilidade da cultura de tecidos, tem, como uma das muitas vantagens, a produ??o em larga escala de plantas em tempo menor que o habitual, e com garantia fitossanit?ria. Por outro lado, durante a fase de aclimatiza??o da micropropaga??o da videira ocorrem perdas significativas. Nessa fase, pelos v?rios benef?cios que proporcionam, os fungos micorr?zicos arbusculares surgem como alternativa de uso, pois reduzem as perdas, tornando menos estressante a passagem das condi??es in vitro para ex vitro. Este estudo teve como objetivo avaliar citogeneticamente variedades e h?bridos de videira, bem como estudar a associa??o micorr?zica no estabelecimento ex vitro de mudas micropropagadas, buscando selecionar isolados eficientes em promover o crescimento e absor??o de nutrientes em h?brido apir?nico de videiras.

Fungos micorr?zicos arbusculares

Cromossomo

Videira

Cultura de tecidos

Bandeamento cromoss?mico

Arbuscular mycorrhizal fungi

Chromosome

Grapevine

Tissue culture

Chromosome banding

CIENCIAS BIOLOGICAS::BIOLOGIA GERAL

Models of chromosome architecture and connection with the regulation of genetic expression / Modèles de l'architecture du chromosome et lien avec la régulation de l'expression génétique

Le Treut, Guillaume

29 November 2016

Plusieurs indices suggèrent que le repliement du chromosome et la régulation de l’expression génétique sont étroitement liés. Par exemple, la co-expression d’un grand nombre de gènes est favorisée par leur rapprochement dans l’espace cellulaire. En outre, le repliement du chromosome permet de faire émerger des structures fonctionnelles. Celles-ci peuvent être des amas condensés et fibrillaires, interdisant l’accès à l’ADN, ou au contraire des configurations plus ouvertes de l’ADN avec quelques amas globulaires, comme c’est le cas avec les usines de transcription. Bien que dissemblables au premier abord, de telles structures sont rendues possibles par l’existence de protéines bivalentes, capable d’apparier des régions parfois très éloignées sur la séquence d’ADN. Le système physique ainsi constitué du chromosome et de protéines bivalentes peut être très complexe. C’est pourquoi les mécanismes régissant le repliement du chromosome sont restés majoritairement incompris.Nous avons étudié des modèles d’architecture du chromosome en utilisant le formalisme de la physique statistique. Notre point de départ est la représentation du chromosome sous la forme d’un polymère rigide, pouvant interagir avec une solution de protéines liantes. Les structures résultant de ces interactions ont été caractérisées à l’équilibre thermodynamique. De plus, nous avons utilisé des simulations de dynamique Brownienne en complément des méthodes théoriques, car elles permettent de prendre en considération une plus grande complexité dans les phénomènes biologiques étudiés.Les principaux aboutissements de cette thèse ont été : (i) de fournir un modèle pour l’existence des usines de transcriptions caractérisées in vivo à l’aide de microscopie par fluorescence ; (ii) de proposer une explication physique pour une conjecture portant sur un mécanisme de régulation de la transcription impliquant la formation de boucles d’ADN en tête d’épingle sous l’effet de la protéine H-NS, qui a été émise suite à l’observation de ces boucles au microscope à force atomique ; (iii) de proposer un modèle du chromosome qui reproduise les contacts mesurés à l’aide des techniques Hi-C. Les conséquences de ces mécanismes sur la régulation de la transcription ont été systématiquement discutées. / Increasing evidences suggest that chromosome folding and genetic expression are intimately connected. For example, the co-expression of a large number of genes can benefit from their spatial co-localization in the cellular space. Furthermore, functional structures can result from the particular folding of the chromosome. These can be rather compact bundle-like aggregates that prevent the access to DNA, or in contrast, open coil configurations with several (presumably) globular clusters like transcription factories. Such phenomena have in common to result from the binding of divalent proteins that can bridge regions sometimes far away on the DNA sequence. The physical system consisting of the chromosome interacting with divalent proteins can be very complex. As such, most of the mechanisms responsible for chromosome folding and for the formation of functional structures have remained elusive.Using methods from statistical physics, we investigated models of chromosome architecture. A common denominator of our approach has been to represent the chromosome as a polymer with bending rigidity and consider its interaction with a solution of DNA-binding proteins. Structures entailed by the binding of such proteins were then characterized at the thermodynamical equilibrium. Furthermore, we complemented theoretical results with Brownian dynamics simulations, allowing to reproduce more of the biological complexity.The main contributions of this thesis have been: (i) to provide a model for the existence of transcrip- tion factories characterized in vivo with fluorescence microscopy; (ii) to propose a physical basis for a conjectured regulatory mechanism of the transcription involving the formation of DNA hairpin loops by the H-NS protein as characterized with atomic-force microscopy experiments; (iii) to propose a physical model of the chromosome that reproduces contacts measured in chromosome conformation capture (CCC) experiments. Consequences on the regulation of transcription are discussed in each of these studies.

Physique statistique

Physique des polymères

Chaîne gaussienne

Chaîne de Kratky-Porod

Théorie de Flory-Huggins

Random phase approximation

Phases de l’ADN

Fonction de structure

Matrice de transfert

Dynamique browniennne

Probabilité de contact

Protéine se liant à l’ADN

Architecture du chromosome

Repliement du chromosome

Dynamique du chromosome

Co-localisation des gènes

Usine à transcription

Régulation de la transcription

Chromosome conformation capture

Statistical physics

Polymer physics

Gaussian chain

Worm-like chain

Flory-Huggins theory

Random phase approximation

DNA phases

Structure function

Transfer matrix

Brownian dynamics

Contact probability

DNA-binding protein

Chromosome architecture

Chromosome folding

Chromosome dynamics

Gene co-localization

Transcription factory

Transcription regulation

Chromosome conformation capture

Obrazová analýza mitotických chromosomů / Digital image analysis of mitotic chromosomes

Jaroš, Luboš

January 2017

The development in modern medicine has allowed to study human genome and detect predispositions to several diseases. One of very promising techniques is the analysis of human karyotype, i.e., the number and appearance of chromosomes in the cell nucleus. The most important step in the karyotype analysis is the chromosome detection and categorization. In this work, a new algorithm for detection of chromosomes from an image of microscopic DNA sample and their categorization into seven groups was developed. The algorithm was implemented in Matlab. The accuracy of segmentation and classification was tested on a set of images from two databases with 117 and 38 images, respectively. The sensitivity of the developed segmentation reached 88% while the value of positive predictivity of segmentation reached 92%. The success rate of chromosome pairing achieves 77%.

Chromosom Y v hybridní zóně myší / Y chromosome in the mouse hybrid zone

Rubík, Pavel

January 2011

The contact zone between subspecies of house mouse Mus musculus musculus and Mus musculus domesticus is one of the most intensively studied hybrid zones. It is also due to extensive introgression of the Y chromosome of M. m. musculus subspecies to the genetic background of M. m. domesticus. One theory of the origin of the introgression explains it by intragenomic conflict between the sexes. With a set of variable microsatellite markers on the Y chromosome, I have examined the validity of this theory by simple approaches revealing the history of the introgression area. It turned out that overly big variability of our markers makes the revelation of this theory impossible. Our markers have been found suitable for use in the analysis of population structure of house mouse. Thanks to them, we can identify migrants between localities and estimate the level of closeness of the population structure in relation to migrants from the neighborhood. Populations in our analysis proved to be relatively closed and resistant to the influx of migrants. Despite the conclusions of previous research where the dispersion of males ran up to one kilometer, I have discovered a relatively large number of migrations to a distance of thirty kilometers. Keywords Mus musculus musculus, Mus musculus domesticus, Y chromosome,...

Karyotypová evoluce u vybraných čeledí entelegynních pavouků / Karyotype evolution of selected families of entelegyne spiders

Kotz, Matěj

January 2020

The Araneoidea superfamily is a diverse clade of spiders with a great species diversity. The whole superfamily displays considerable conservativeness of observed karyotypes. Most likely ancestral karyotype in males is 24 acrocentric chromosomes with X1X2 sex determination system. The goal of this study is to explore the karyotype diversity of two araneoid families - Araneidae and Mimetidae. The majority of studied species exhibit the ancestral karyotype. In some species of the aformentioned families was observed sudden increase in chromosome numbers, up to 2n♂ = 52 in Araneidae and up to 2n♂ = 57 in Mimetidae. The latter number is the highest chromosome count observed in Entelegynae so far. Increase in 2n goes hand in hand with increase in sex chromosome numbers, leading up to X1X2X3X40 system in Araneidae and up to X1X2X3X4X5X6X70 in Mimetidae. I suggest polyploidy as a possible mechanism of the increase. To test this hypothesis, I measured the size of the genome using flow cytometry and used fluorescence in situ hybridization for the detection of 18S rRNA and 5S rRNA genes. For one species, probe for U2 snRNA gene was also optimized as part of this thesis. In many species studied, these techniques were used for the first time ever. In the case of the family Mimetidae, the largest genomes in...

Séquençage des génomes nucléaires d’eucaryotes unicellulaires ‘primitifs’ : les jakobides

Prince, Samuel

11 1900

Les eucaryotes sont des organismes chimériques issus de l’endosymbiose entre une archéobactérie et une α-protéobactérie. Au cours de ce processus, ces organismes ont évolué de sorte à obtenir un grand nombre de caractéristiques observées chez les eucaryotes modernes, notamment une mitochondrie, un noyau, un système endomembranaire, un système d’épissage ou encore des chromosomes linéaires terminés par un télomère. Bien que les caractéristiques du dernier ancêtre commun des eucaryotes aient majoritairement été identifié, la suite des évènements évolutifs ayant mené à l’apparition de cet organisme demeure peu compris. Afin de mieux reconstruire cette suite d’évènements, l’analyse des génomes d’organismes basals aux eucaryotes sera nécessaire pour identifier des traces de cette évolution. Ainsi, nous proposons que l’analyse d’une collection de génomes d’eucaryotes « primitifs », les jakobides et malawimonades, des eucaryotes unicellulaires flagellés se nourrissant de bactéries, pourrait permettre une meilleure compréhension de ce processus. De plus, il a été supposé que le génome d’un de ces organismes, Andalucia godoyi, pourrait posséder des chromosomes circulaires, une caractéristique atypique chez les eucaryotes, une caractéristique qui pourra être confirmée par la production d’assemblage génomique de haute contigüité. Afin d’obtenir des assemblages génomiques de haute qualité, les jakobides A. godoyi, Jakoba bahamiensis, Seculamonas ecuadoriensis, Stygiella incarcerata et le malawimonades Malawimonas californiana ont été séquencés par nanopore. Le séquençage nanopore a présenté des résultats mitigés et les organismes J. bahamiensis et M. californiana ont présentés un faible rendement de séquençage, possiblement dû à la contamination par des polysaccharides. Pour les autres organismes, nous avons développé un pipeline d’assemblage utilisant les assembleurs Flye et Shasta qui nous a permis de produire des assemblages génomiques. L’analyse du génome de A. godoyi a permis d’identifier la présence de quatre chromosomes circulaires, possiblement localisés dans le noyau, contenant plusieurs gènes liés au métabolisme, au transport et à la signalisation et qui constituent possiblement un type de chromosome circulaire différent de ceux observés précédemment chez les eucaryotes. Dans l’ensemble, ces travaux ont permis la mise en place d’une collection de génome d’eucaryotes « primitifs » qui pourront être utilisés pour des analyse de génomique comparative afin de mieux comprendre l’évolution des eucaryotes. / Eucaryotes are chimeric organisms that are the product of an endosymbiotic event between an archaebacteria and an α-proteobacteria. During the eukaryogenesis, these organisms have gained many characteristics that defines modern eucaryotes such as a mitochondrion, a nucleus, an endomembrane system, the splicing machinery, and linear chromosome with telomeres. While most characteristics of the last common eukaryote ancestor have mostly been identified, most of the evolutionary process that led to this organism is still unknown. To reconstruct this string of event, we must analyse the genome of “primitive” basal eukaryotes with a slow evolutionary rate and a lifestyle like that of the last common eukaryotes ancestor, and thus are most likely to contain remains of ancestral mechanisms that have been lost in most known eukaryotes. We propose that this analysis of the genome of the jakobids and malawimonads, two groups are free-living flagellate that feeds on bacteria, could provide such clues on the evolution of eukaryotes. Using nanopore sequencing, a collection of high-quality genomes has been built to help in this analysis. Furthermore, it has been supposed that the genome of the jakobid Andalucia godoyi could be composed to both linear and circular chromosomes, a genomic structure that have not been identified in other eukaryotes, which was investigated using the high quality nanopore assembly. To generate a collection of high-quality genome assemblies, we have sequenced the genomes of the jakobids A. godoyi, Jakoba bahamiensis, Seculamonas ecuadoriensis and Stygiella incarcerata as well as the malawimonad Malawimonas californiana by nanopore. While the yields were too low for J. bahamiensis and M. californiana, probably due to a contamination by polysaccharides, we were able to assemble chromosome level genome for A. godoyi and S. incarcerata and high-quality draft genome for S. ecuadoriensis et R. americana. Using this assembly, we were able to identify four circular chromosomes in the genome of A. godoyi. The circular chromosomes are likely to be located in the nucleus and encodes genes with functions related to the metabolism, ions and macromolecules transport as well as signaling. Furthermore, these molecules differ from known circular chromosome in eukaryotes as they are unlikely to be selfish DNA elements, such as known eucaryotes plasmids, or circular by-product of replication identified in other eukaryotes. Overall, this work sets the bases for larger scale comparative genomics of the jakobids and malawimonads, by generating a small collection of genomes that will be used in future studies to better understand the origin of the eukaryotes.

protistes

jakobides

malawimonades

évolution

origine des eucaryotes

chromosome circulaire

nanopore

protists

jakobids

malawimonads

evolution

eukaryote origin

circular chromosome