Potentiels physiologiques et métaboliques de communautés microbiennes de sédiments de subsurface : approches culturale, génomique et métagénomique / Physiological and metabolic potentials of subsurface sediments microbial communities : cultural, genomic and metagenomic approaches

Gaboyer, Frédéric

18 September 2014

Les communautés microbiennes de sédiments de subsurface ont été décrites jusqu’à 1922 mbsf (meters below the seafloor) et pourraient représenter 0,6% de la biomasse totale. Largement incultivées, ces communautés comprennent des groupes endémiques aux environnements de subsurface et des généralistes retrouvés dans des environnements contrastés, appartenant aux 3 domaines du vivant (Bacteria, Eukarya and Archaea). Bien que jouant un rôle majeur dans les grands cycles géochimiques, l’écologie microbienne des sédiments de subsurface reste peu connue. Les conditions hostiles de ces sédiments contrastent avec la présence d’activité et de viabilité microbiennes. Dans ce contexte, de nombreuses questions sur les modes de vie et les métabolismes des microorganismes enfouis demeurent. L’objectif de cette thèse était de mieux comprendre quelles stratégies adaptatives pouvaient être mises en place par les communautés microbiennes de subsurface et de caractériser leur potentiel physiologique. Pour cela, 3 approches ont été utilisées.(1) Une approche culturale a permis de décrire 2 nouvelles espèces bactériennes sédimentaires (Halomonas lionensis, ungénéraliste versatile, et Phaeobacter leonis, une bactérie marine typique). L’étude de la résistance aux conditions de subsurface de ces deux espèces et de la bactérie Sunxiuqinia faeciviva, isolée à 247 mbsf, a ensuite été étudiée. (2) Par une étude de génomique comparée et structurale, la plasticité physiologique de H. lionensis a été analysée. (3) Enfin, le potentiel fonctionnel de communautés microbiennes enfouies à 31 et 136 mbsf dans le bassin de Canterbury a été étudié, en analysant les 2métagénomes correspondants. Les résultats culturaux et génomiques montrent que H. lionensis et S. faeciviva résistent mieux aux stress de subsurface que P. leonis et, dans le cas de H. lionensis, ceci impliquerait des propriétés physiologiques variées pouvant expliquer le succès écologique du genre Halomonas. Les données de métagénomique indiquent que les diversités phylogénétique et fonctionnelle de subsurface du bassin de Canterbury sont distinctes de celles d’environnements de surface et suggèrent que des métabolismes comme la fermentation, la méthanogenèse ou la β-oxydation pourraient être importants. La présence de gènes d’importance écologique et évolutive a permis d’émettre des hypothèses sur les modes de vie de ces microorganismes et des évènements de recombinaison génomique de groupes toujours incultivés ont aussi pu être décrits / Microbial communities inhabiting marine subsurface sediments were described up to 1922 mbsf (meters below the sea floor) andcould represent 0.6% of the total biomass. This microbial diversity, remaining elusive to cultivation, comprises groups specific to subsurface environments and groups of generalists found in contrasted habitats, all belonging to the 3 domains of life (Bacteria,Eukarya and Archaea). Although playing a major role in global geochemical cycles, the microbial ecology of the subseafloor remains largely unknown. The hostile conditions of subsurface sediments contrast with the descriptions of microbial activity andviability in the subseafloor. In this context, many questions related to the microbial physiology and the lifestyles of buried communities remain to be answered. The objective of this thesis was to better understand which adaptive strategies could be deployed by subseafloor microbial communities and to characterize their physiological potential. In that aim, 3 approaches were used.(1) A cultural approach enabled describing 2 novel sedimentary bacterial species (Halomonas lionensis, a versatile generalist and Phaeobacter leonis a typical marine bacterium). The survival of these 2 species to subseafloor conditions and of the subsurface bacteria Sunxiuqinia faeciviva, isolated at 247 mbsf, was then studied. (2) Using a structural and comparative genomic approach, the physiological plasticity of H. lionensis was investigated. (3) Finally, the functional potential of the microbial communities buried at 31 and 136 mbsf in the Canterbury Basin was analyzed, by studying the 2 corresponding metagenomes. Cultural and genomics results showed that H. lionensis and S. faeciviva are more resistant to subsurface constrains than P. leonis and, in the case of H. lionensis, this may involve various physiological properties, maybe explaining thee cological success of the genus Halomonas. Metagenomic data showed that the functional and the phylogenetic diversity of the subseafloor are distinct from the ones from surface environments and highlighted the importance of metabolic pathways like fermentation, methanogenesis and β-oxidation. Genes of ecological and evolutionary interests enabled speculating about lifestyles of buried microorganisms and analyses of genomic fragments highlighted recombination events of still uncultivated microbial groups

Ecologie microbienne

Environnements extrêmes

Subsurface

Adaptation microbienne

Evolution microbienne

Physiologie microbienne

Génomes

Métagénomes

Microbial ecology

Extreme environments

Subsurface

Microbial adaptation

Microbial evolution

Microbial physiology

Genomes

Metagenomes

577.7

Studies On The Expression Of The bgl Operon Of Escherichia Coli In Stationary Phase

Madan, Ranjna

10 1900

The bgl operon of Escherichia coli, involved in the uptake and utilization of aromatic β-glucosides salicin and arbutin, is maintained in a silent state in the wild type organism by the presence of structural elements in the regulatory region. This operon can be activated by mutations that disrupt these negative elements. The fact that the silent bgl operon is retained without accumulating deleterious mutations seems paradoxical from an evolutionary view point. Although this operon appears to be silent, specific physiological conditions might be able to induce its expression and/or the operon might be carrying out function(s) apart from the utilization of aromatic β-glucosides. The experiments described in this thesis were carried out to test these possibilities. In cultures exposed to prolonged stationary phase, majority of the bacterial population dies and a few mutants that have the ability to scavenge the nutrients released by the dying cell mass survive. Bgl+ mutants were found to be enriched in twenty-eight-day-old Luria Broth grown cultures of E. coli that are wild type for bgl but carry the rpoS819 allele. Out of the five Bgl+ mutants that were isolated, four carried a mutation in the hns locus while one of them, ZK819-97, had an activating mutation linked to the bgl operon. Further analysis of ZK819-97 by DNA sequencing revealed the existence of a single C to T transition at the CAP binding site in the regulatory region. ZK819-97 was chosen for further analysis. Competition assays were carried out in which Bgl+ strain, ZK819-97 (Strr), and the parental Bgl- strain, ZK820 (Nalr), were grown independently for twenty-four hours in Luria Broth and then mixed in 1:1,000 (v/v) ratio reciprocally, without addition of fresh nutrients. ZK819-97, when present in minority, was found to increase in number and take over the parental strain, ZK820, i.e. ZK819-97 showed a Growth Advantage in Stationary Phase phenotype. To determine whether the GASP phenotype of ZK819-97 is associated with the bgl locus, the bgl allele from this strain was transferred by P1 transduction to its parental strain, ZK819. The resulting strain, ZK819-97T (Bgl+, Tetr), when competed with the parental strain, ZK819 Tn5 (Bgl-, Kanr), also showed a GASP phenotype when present in minority in the mixed cultures. To reconfirm this further, the bgl locus was deleted from ZK819-97T. The resulting strain, ZK819-97Δbgl, showed a loss of the GASP phenotype. When the bglB locus was disrupted in ZK819-97T, the resulting strain, ZK819-97ΔB, also failed to show a GASP phenotype, indicating that the phospho-β-glucosidase B activity is essential for this phenotype. The strain, ZK819-IS1, carrying an activating IS1 insertion within the bgl regulatory region also showed a GASP phenotype, confirming that this phenotype of the Bgl+ strain is independent of the nature of the activating mutation. All the above mentioned strains used in the competition assays carry a mutant allele of rpoS, rpoS819. Introduction of the wild type rpoS allele in these strains resulted in the loss of the GASP phenotype of the Bgl+ strain, suggesting that the two mutations work in a concerted manner. The Bgl+ strain was found to show the GASP phenotype only when present in minority of 1:1,000 or 1:10,000 in the mixed cultures and showed a slight disadvantage at higher ratios, indicating that the GASP phenotype of the Bgl+ strain is a frequency dependent phenomenon. In competition assays carried out between 24-hour-old cultures of Bgl+ and Bgl- strains resuspended in five-day-old spent medium prepared from a wild type E. coli strain, Bgl+ strain did not show any extra or early GASP phenotype. In addition, a reporter strain, which has a lacZ transcriptional fusion with the activated bgl promoter, was resuspended in spent medium prepared from a five-day-old culture of wild type strain of E. coli and bgl promoter activity was measured by β-galactosidase assay. The bgl promoter did not show any induction in this medium. These experiments suggest the absence of any β-glucoside like molecules in the spent medium within the sensitivity of these assays. A reporter strain that has a lacZ transcriptional fusion to the wild type bgl promoter was used to measure the expression level of this promoter during exponential and stationary phase of growth in LB. Expression of the wild type as well as various activated promoters of bgl was found to be enhanced in stationary phase. To investigate a possible role of the rpoS encoded stationary phase specific sigma factor, RpoS (σs), and another stationary phase factor, Crl, known to be important for the regulation of many genes of the σs regulon, the bgl promoter activity measurements were carried out in the presence or the absence of RpoS and/or Crl. RpoS along with Crl was found to negatively regulate the expression of wild type as well as activated promoters of bgl, both in exponential and stationary phase. In the absence of the negative regulation by RpoS and Crl, the increase in the bgl promoter activity was more pronounced as compared to that in its presence. rpoS and crl mutations are common in nature and it has been suggested that crl deletion gives a growth advantage to the strain in stationary phase. To test this possibility crl deletion was created in wild type as well as in attenuated rpoS allele background. The strain carrying the crl deletion was found to have a growth advantage in stationary phase over the wild type strain in the presence of wild type rpoS allele, while it shows a slight disadvantage in combination with mutant rpoS. Over expression of LeuO or BglJ is known to activate the bgl operon. To study a possible role of these factors in the regulation of the bgl expression in stationary phase, the bgl promoter activity was measured in strains that were deleted for leuO and/or bglJ, in the absence or presence of crl. These studies indicated that BglJ had a moderate effect on the bgl promoter activity in stationary phase in the absence of Crl but not in its presence. LeuO did not have a significant effect on the bgl promoter activity in either condition. Thus under the conditions tested, the physiological increase in the levels of LeuO and BglJ in stationary phase was insufficient to regulate the bgl expression. Preliminary results show that the bgl operon might be involved in the regulation of oppA, an oligopeptide transporter subunit, in stationary phase. Implications of these findings are discussed. The studies reported in this thesis highlight the involvement of the bgl operon of E. coli in stationary phase. This could be mediated by genetic as well as physiological mechanisms. This study also underscores the importance of observing organisms closer to their natural context and the need to reconsider the concept of ‘cryptic genes’.

Chromosomes

Escherechia Coli

Bacterial Gene Expression

bgl Operon

Bacterial Genomes

Cryptic Genes

Bacterial Evolution

Bacterial Growth

BglG-BglF

E. coli - Stationary Phase

Biochemical Genetics

Algorithmes pour la reconstruction de génomes ancestraux

Gagnon, Yves

05 1900

L’inférence de génomes ancestraux est une étape essentielle pour l’étude de l’évolution des génomes. Connaissant les génomes d’espèces éteintes, on peut proposer des mécanismes biologiques expliquant les divergences entre les génomes des espèces modernes. Diverses méthodes visant à résoudre ce problème existent, se classant parmis deux grandes catégories : les méthodes de distance et les méthodes de synténie. L’état de l’art des distances génomiques ne permettant qu’un certain répertoire de réarrangements pour le moment, les méthodes de synténie sont donc plus appropriées en pratique. Nous proposons une méthode de synténie pour la reconstruction de génomes ancestraux basée sur une définition relaxée d’adjacences de gènes, permettant un contenu en gène inégal dans les génomes modernes causé par des pertes de gènes de même que des duplications de génomes entiers (DGE). Des simulations sont effectuées, démontrant une capacité de former une solution assemblée en un nombre réduit de régions ancestrales contigües par rapport à d’autres méthodes tout en gardant une bonne fiabilité. Des applications sur des données de levures et de plantes céréalières montrent des résultats en accord avec d’autres publications, notamment la présence de fusion imbriquée de chromosomes pendant l’évolution des céréales. / Ancestral genome inference is a decisive step for studying genome evolution. Knowing genomes from extinct species, one can propose biological mecanisms explaining divergences between extant species genomes. Various methods classified in two categories have been developped : distance based methods and synteny based methods. The state of the art of distance based methods only permit a certain repertoire of genomic rearrangements, thus synteny based methods are more appropriate in practice for the time being. We propose a synteny method for ancestral genome reconstruction based on a relaxed defenition of gene adjacencies, permitting unequal gene content in extant genomes caused by gene losses and whole genome duplications (WGD). Simulations results demonstrate our method’s ability to form a more assembled solution rather than a collection of contiguous ancestral regions (CAR) with respect to other methods, while maintaining a good reliability. Applications on data sets from yeasts and cereal species show results agreeing with other publications, notably the existence of nested chromosome fusion during the evolution of cereals.

Algorithmes

Génomes ancestraux

Duplication de génome

Synténie

Distance génomique

Algorithms

Ancestral genomes

Whole genome duplication

Synteny

Genomic distance

Diversité des génomes et adaptation locale des petits ruminants d’un pays méditerranéen : le Maroc / Genome diversity and local adaptation in small ruminants from a Mediterranean country : Morocco

Benjelloun, Badr

01 September 2015

Les progrès technologiques récents nous permettent d'accéder à la variation des génomes complets ce qui nous ouvre la porte d'une meilleure compréhension de leur diversification via des approches de génomique des populations et de génomique du paysage. Ce travail de thèse se base sur l'analyse des données de génomes complets (WGS) pour caractériser la diversité génétique des petits ruminants (chèvre et moutons) et rechercher les bases génétiques d'adaptations locales.Dans un premier temps, ce travail appréhende un aspect méthodologique et examine la précision et le biais de différentes approches d'échantillonnage des génomes pour caractériser la variabilité génétique, en les comparant aux données WGS. Nous mettons en évidence un fort biais des approches classiques (i.e. puces à ADN, capture de l'exome) ainsi que des séquençages de génomes à faibles taux de couverture (1X et 2X), et nous suggérons des alternatives basées sur un échantillonnage aléatoire de marqueurs dont la densité est variable selon les objectifs d'étude (évaluation de la diversité neutre, déséquilibre de liaison, signatures de sélection). Le jeu de données produit a permis d'évaluer l'état des ressources génétiques de différentes populations domestiques (races locales marocaines, iraniennes, races industrielles) et sauvages (aegagre, mouflon asiatique). Nous relevons une très forte diversité génétique dans les populations indigènes et sauvages qui constituent des réservoirs d'allèles et peuvent jouer un rôle important pour préserver le potentiel adaptatif des petits ruminants domestiques dans un contexte de changement climatique. L'étude plus approfondie des populations de chèvres du Maroc montre une forte diversité génétique faiblement structurée géographiquement, et met en évidence des portions de génome présentant des signaux de sélection. Leur étude montre l'existence de mécanismes adaptatifs potentiellement différents selon les populations (e.g. transpiration/halètement dans l'adaptation probable à la chaleur).Enfin, nous explorons les bases génétiques de l'adaptation locale à l'environnement chez les moutons et chèvres via une approche de génomique de paysage. En scannant les génomes de 160 moutons et 161 chèvres représentant la diversité éco-climatique du Maroc, nous identifions de nombreux variants et gènes candidats qui permettent d'identifier les voies physiologiques potentiellement sous-jacentes à l'adaptation locale. En particulier, il apparait que les mécanismes respiratoires et les processus cardiaques joueraient un rôle clé dans l'adaptation à l'altitude. Les résultats suggèrent que les chèvres et moutons ont probablement développé différents mécanismes adaptatifs pour répondre aux mêmes variations environnementales. Cependant, nous identifions plusieurs cas probables de voies adaptatives communes à plusieurs espèces. Par ailleurs, nous avons caractérisé les patrons de variations du niveau de différenciation de régions chromosomiques sous sélection en fonction de l'altitude. Cela nous permet de visualiser la diversité des réponses adaptatives selon les gènes (par exemple, sélection de variants à faible et/ou haute altitude). Ainsi, ce travail pose les bases de la compréhension de certains mécanismes d'adaptation locale. / Recent technological developments allow an unprecedented access to the whole genome variation and would increase our knowledge on genome diversification using population and landscape genomics. This work is based on the analysis of Whole Genome Sequence data (WGS) with the purpose of characterising genetic diversity in small ruminants (sheep and goats) and exploring genetic bases of local adaptation.First, we addressed a methodological aspect by investigating the accuracy and possible bias in the widely used genotyping approaches to characterize genetic variation in comparison with WGS data. We highlighted strong bias in conventional approaches (SNP chips and exome capture) and also in low-coverage whole genome re-sequencing (1X and 2X), and we suggested effective solutions based on sampling panels of random markers over the genome depending the purpose of the study (assessing neutral diversity, linkage disequilibrium, selection signatures). The various datasets produced allowed assessing genetic resources in various domestic (Moroccan and Iranian indigenous breeds and industrials) and wild populations (bezoars and Asiatic mouflons). We identified a very high diversity in indigenous and wild populations. They constitute a reservoir of alleles allowing them to play a possible key role in the preservation of these species in the context of global changes. The deep study of Moroccan goats showed a high diversity that is weakly structured in geography and populations, and highlighted numerous genomic regions showing signatures of selection. These regions identified different putative adaptive mechanisms according to the population (e.g. panting/sweating to adapt to warm/desert environment).Then, we explored genetic bases of local adaptation to the environment in sheep and goats using a landscape genomics framework. We scanned genomes of 160 sheep and 161 goats representing the eco-climatic Moroccan-wide diversity. We identified numerous candidate variants and genes, which allowed for identifying physiological pathways possibly underlying local adaptation. Especially, it seems that respiration and cardiac process have key roles in the adaptation to altitude. Our results suggest dissimilar adaptive mechanisms for the same environment in sheep and goats. However, we highlighted several cases of common metabolic pathways in different species. Moreover, we characterized some patterns for the variation of genetic differentiation in some candidate genomic regions over environmental gradients. This allowed us to visualise different adaptive reaction depending genes. This work points the way towards a better understanding of some mechanisms underlying local adaptation.

Génomes complets

Adaptation locale

Génomique des populations

Génomique du paysage

Petits ruminants

Ressources génétiques

Whole genomes

Local adaptation

Population genomics

Landscape genomics

Small-Ruminants

Genetic resources

570

Diversification et adaptation génomique des virus entomopathogènes / Genomic diversification and adaptation of entomopathogenic viruses

Thézé, Julien

31 May 2013

À différentes échelles de temps, le but de ma thèse a été de comprendre l'évolution des virus entomopathogènes à travers l’étude de la diversification et de l’adaptation génomique de grands virus à ADN d’insectes. Dans un premier temps, j’ai pu estimer les âges de diversifications des baculovirus et des nudivirus, et proposer un scénario de coévolution à long terme entre ces virus et leurs hôtes insectes. Puis, me plaçant sur une échelle de temps moindre, j’ai montré que les hôtes insectes sont le facteur principal de la diversification des baculovirus, et de façon surprenante, j’ai également observé que l'environnement biotique de ces virus, c’est-à-dire les plantes hôtes des insectes, joue un rôle central dans leur évolution. Dans un second temps, des mutations ponctuelles ont pu être reliées à l’adaptation locale de populations différentiées du baculovirus SeMNPV. Enfin, l’étude de l'adaptation génomique convergente entre les entomopoxvirus et les baculovirus a mis en évidence que les transferts horizontaux de gènes sont une source importante de variabilité pour les grands virus à ADN, pour l'adaptation aux mêmes niches écologiques. Les gènes et les mécanismes identifiés dans ce travail de thèse apportent des éléments nouveaux pour comprendre comment les génomes sont façonnés par l’écologie. / At different timescales, the purpose of my PhD was to understand insect virus evolution through the study of the genomic diversification and adaptation of insect large DNA viruses. Firstly, I was able to estimate the ages of baculovirus and nudivirus diversifications, and to propose a long-term coevolutionary scenario between these viruses and their insect hosts. Then, on a narrower timescale, I showed that insect hosts are the major factor in baculovirus diversification, and surprisingly, I also observed that the virus biotic environment, i.e. insect host plants, plays a central role in their evolution. Secondly, punctual mutations have been linked to the local adaptation of differentiated populations of the baculovirus SeMNPV. Finally, the study of convergent genomic adaptation between entomopoxviruses and baculoviruses highlighted that horizontal gene transfers are an important source of variability for large DNA viruses, for the adaption to the same ecological niches. Genes and mechanisms identified in this PhD work provide new insights to understand how genomes are shaped by ecology.

Évolution

Phylogénétique

Adaptation

Génomes

Virus

Insectes

Interactions hôtes-pathogènes

Mutations

Transferts de gènes horizontaux

Evolution

Phylogenetics

Adaptation

Genomes

Virus

Insect

Host-pathogen interactions

Mutations

Horizontal gene transfers

In Silico Perspectives on RNA Structures Modulating Viral Gene Expression and Mechanics of tRNA Transport

Gupta, Asmita

January 2015

The repertoire of cellular functions mediated by Ribonucleic acid (RNA) molecules have expanded considerably during the last two decades. The role played by RNA in controlling and regulating gene expression in viruses, prokaryotes and eukaryotes has been a matter of continuous investigations. This interest has arisen primarily due to the discoveries of cisacting RNA structures like riboswitches, ribosensors and frameshift elements, which are found in either the 5’-, 3’-untranslated regions of mRNA or in the open reading frames. These structures control gene expression at the level of translation by either sequestering the Shine-Dalgarno (SD) sequence to regulate translation initiation or modulating ribosomal positions during an active translation process. Very often, these structures comprise of an RNA pseudoknot and it has been observed that these pseudoknots exist in a dynamic equilibrium with other intermediate structures. This equilibrium could be shifted by several factors including presence of ions, metabolites, temperature and external force. RNA pseudoknots represent the most versatile and ubiquitous class of RNA structures in the cell, whose unique folding topology could be exploited in a number of ways by the cellular machinery. In this thesis, a thorough study of programmed -1 ribosomal frameshifting (-1 PRF) process, which is a well known gene regulation event employed by many RNA viruses, was carried out. -1 PRF is a translation recoding process, necessary for viruses to main-tain a stoichiometric ratio of structural: enzymatic proteins. This ratio varies among different viral species. At the heart of this process, lies an RNA pseudoknot accompanied by a seven nucleotide long sequence motif, which pauses an actively translating ribosome on mRNA and causes it to shift its reading frame. The frameshift inducing efficiency of pseudoknot depends on multiple factors, for example the time scale of ribosomal pause and RNA unfolding, subsequent refolding of structure to native/intermediate states and/or environment conditions. With the aim of illustrating the fundamentals of the process, multiple factors involved in -1 PRF were studied. Chapters 2-4 represent distinct aspects of -1 PRF process, while Chapter 5 discusses a different work concerned with nucleocytoplasmic transport of tRNA carried out by nuclear export receptor Exporting. Chapter 1 gives an overview of the different regulatory activities with which RNA structures and sequences are found to be associated and the evolution of these stud-ies. It discusses the different types of structural motifs found to constitute tertiary RNA structure and secondary structure prediction and determination techniques. A brief description of ab initio RNA structure modeling and other relevant tools and methodologies used in this work has been presented. Details of techniques used in each study have been provided in relevant chapters. Chapter 2 describes how local factors like ionic conditions, hydration patterns, presence of protonated residues and single residue mutations affect the structural dynamics of an RNA pseudoknot involved in -1 PRF from a plant luteovirus. Single residue mutations in the loop regions or certain base-pair inversions in the stem regions of pseudoknot increase the frameshift inducing ability of the pseudoknot structure, while some others decrease this efficiency. However, it was not clear how the changes made to the wild-type (WT) RNA pseudoknot from Beet Western Yellow Mosaic virus were affecting the global structure in terms of its dynamics and other parameters. To study this, multiple all-atom molecular dynamics simulations (MD) were performed on WT and mutant structures created in silico. The effect of presence and absence of magnesium ions on the structural geometry was also studied. The analysis was done to identify the increase/decrease in the number of hydrogen bonds formed by Watson-Crick base-pairs in stem region or non Watson-Crick pairs between stem and loop. Ionic and water densities were analyzed and the role of potential ribosome-pseudoknot interaction was elaborated. With the aim of mimicking ribosome induced unfolding of an RNA pseudoknot, steered molecular dynamics pulling experiments were performed. This work was done primarily to understand the unfolding pathway of Hairpin(H)-type pseudoknots in general and the intermediate structures formed. Chapter 3 describes the thermodynamics and mechanics associated with the mechanical pulling of -1 PRF inducing RNA pseudoknot and its mutants described in previous chapter. Analysis of the trajectories reveal relative unfolding patterns in terms of disruption of various hydrogen bonds. This study allowed us to pinpoint the kind of intermediate structures being formed during pulling and whether these intermediate structures correspond to any known secondary structures, such as simple stem-loops. This information could be used for gaining insights into the folding pathways of these structures. An RNA pseudoknot stimulates -1 PRF in conjunction with a heptanucleotide “slippery site” and an intervening spacer sequence. A comprehensive study of analyzing the sequence signatures and composition of all overlapping gene segments harboring these frameshift elements from four different RNA virus families was carried out. Chapter 4 describes the sequence composition of all overlapping gene segments in Astroviridae, Coronaviridae, Retroviridae and Luteoviridae viral families which are known to employ -1 PRF process for maintaining their protein products. Sequence analysis revealed preference for GC bases in the structure forming sequence regions. A comparative study between multiple sequence alignment and secondary structure prediction revealed that while pseudoknots have a clear preference for specific base-pairs in their stem regions, viral families that employ a hairpin loop as -1 PRF structure, doesn’t show this preference. Information derived from secondary structure prediction was then used for RNA ab initio modeling to generate tertiary structures. Furthermore, the structural parameters were calculated for the helices of the frameshift inducing pseudoknots and were compared with the values calculated for a set of non -1 PRF inducing H-type pseudo-knots. This study highlighted the differences between -1 PRF pseudoknots and other H-type pseudoknot structures as well as specific sequence and structural preferences of the former. Chapter 5 discusses the dynamics of a tRNA transport factor Exportint (Xpot), which transports mature tRNA molecules from nucleus to cytoplasm and belongs to Importitβ family of proteins. The global conformational dynamics of other transport receptors has been reported earlier, using coarse-grained modeling and Elastic Network Models (ENMs), but a detailed description of the dynamics at an all-atomic resolution was lacking. This transport requires association of Xpot with RanGTP, a G-protein, in the nucleus and hydrolysis of RanGTP in the cytoplasm. The chain of events leading to tRNA release from Xpot after RanGTP hydrolysis was not studied previously. With these objectives, several molecular complexes containing Xpot bound to Ran or tRNA or both in the GTP and GDP ligand states as well as free Xpot structures in nuclear and cytosolic forms were studied. A combination of conventional and accelerated molecular dynamics simulations was used to study these molecular complexes. The study highlighted various aspects associated with tRNA release and conformational change which occurs in Xpot in cytosolic form. The nuclear to cytosolic state transition in Xpot could be attributed to large fluctuations in C-terminal region and dynamic hinge-points located between specific HEAT repeats. A secondary role of Xpot in controlling the quality of tRNA transport has been proposed based on multiple sequence and structure alignment with Importin-β protein. The loss of critical contacts like hydrogen bonds and salt bridges between Xpot/Ran and Xpot/tRNA interface was evaluated in order to study the initial effects of RanGTP hydrolysis and how it influences receptor-cargo binding. This study revealed various aspects of tRNA transport process by Xpot, not understood previously. The results presented in this thesis illustrate the role of RNA sequence elements and pseudoknots present in RNA viruses in modulating -1 PRF process and how multiple environmental factors affect -1 PRF inducing ability of the structure. From the studies of Xpot and its complexes, the effects of GTP hydrolysis leading to tRNA dissociation have been presented and the progression of conformational transition in Xpot after tRNA dissociation has been highlighted. Chapter 6 summarizes major conclusions of this thesis work. The refolding of single stranded RNA chains, subjected to a previous unfolding simulation is studied. Appendix A describes this work and initial results. Appendix B describes the effect of improved molecular dynamics force fields, containing corrections for χ torsion angle for RNA, on the conformation of tertiary RNA structures. Part of the work presented in this thesis has been reported in the following publications. 1.Asmita Gupta and Manju Bansal. Local Structural and Environmental Factors De-fine the Efficiency of an RNA Pseudoknot Involved in Programmed Ribosomal Frameshift Process. J. Phys. Chem. B. 118 (41), pp 11905-11920. 2014 2.Asmita Gupta, Senthilkumar Kailasam and Manju Bansal. Insights Into Nucleo-cytoplasmic Transport of tRNA by Exportin-t. Manuscript under review. List of manuscripts that are being prepared from the work reported in Chapter 3 in this thesis. 1 Asmita Gupta and Manju Bansal. The role of sequence effects on altering the un-folding pathway of an RNA pseudoknot: a steered molecular dynamics study. Manuscript in preparation. 2 Asmita Gupta and Manju Bansal. Molecular basis for nucleocytoplasmic transport of tRNA by Exportin-t. Journal of Biomolecular Structure and Dynamics, May;33 Suppl 1:59-60, 2015

RNA Structure

RNA Transport

Viral Gene Expression

Silico Perspectives - RNA

RNA Pseudoknot

Viral Genomes

Nucleocytoplasmic Transport - tRNA

Langevin Dynamics Scheme

Programmed Ribosomal Frameshift Process

tRNA Transport

Molecular Biophysics

Functional Characterization of C4 Protien of Cotton Leaf Curl Kokhran Virus - Dabawali

Guha, Debojit

January 2012

1) Geminiviruses are a group of plant viruses which contain circular single stranded DNA molecules as their genomes and the capsid consists of two icosahedra fused together to form twinned or geminate particles. The largest genus in the family Geminiviridae is that of begomoviruses which are of two kinds; the monopartite begomoviruses which contain only one circular single stranded DNA molecule as their genome and the bipartite begomoviruses which contain two circular single stranded DNA molecules (designated DNA-A and DNA-B) as their genomes. In bipartite viruses, the two DNA molecules are enclosed in separate geminate capsids. 2) In bipartite begomoviruses, the DNA-A encodes the proteins essential for replication and encapsidation of the viral genome while the DNA-B encodes the proteins involved in movement. The DNA-B encodes two proteins: the BV1 or the nuclear shuttle protein (NSP) and BC1 or the cell-to-cell movement protein. Geminiviruses have DNA genomes which replicate inside the host cell nucleus. The NSP, which contains nuclear localization signal, brings the viral DNA from nucleus to the cytoplasm while the BC1 serves to take the viral genome to the cell periphery for movement to the neighbouring cell through the plasmodesmata. 3) The monopartite begomoviruses do not contain DNA-B (which, in bipartite begomoviruses, encodes the proteins involved in movement) and it has been suggested that some of the proteins encoded by DNA-A take up the movement function. Based on studies on TYLCV and CLCuV, a model has been proposed for the movement of monopartite begomoviruses according to which the coat protein (CP) of monopartite begomoviruses serves as the functional equivalent of the NSP of bipartite begomoviruses 4) The present thesis deals with the biochemical characterization of the C4 protein of the monopartite begomovirus CLCuKV-Dab. As stated in statement (3) above, the V2 and C4 proteins of monopartite begomoviruses have been implicated to be involved in cell-to¬cell movement of the viral genome. In TYLCV, both the proteins were shown to be localized to the cell periphery and could move from one cell to another through the plasmodesmata. Further, the V2 protein of CLCuKV-Dab was shown to interact with the coat protein and bind to single stranded DNA. The biochemical properties of the C4 protein needed to be elucidated in order to strengthen the proposal of its probable involvement in movement. 5) The objectives of the present study were: i) Bioinformatic analysis of the C4 protein of CLCuKV-Dab ii) Biochemical characterization of ATPase and pyrophosphatase activities of the C4 protein. iii) Studies on the effect of V2-C4 interaction on the enzymatic properties of C4. iv) Functional characterization of C4 in planta. 6) The FoldIndex© and PONDR analyses predicted the C4 protein of CLCuKV-Dab to be natively unfolded. Similarly, in PSIpred analysis, most of the C4 protein was predicted to be a random coil without any well-defined secondary structure. Further, the protein sequence was analyzed using the motifscan server. However, no motif for any specific function was predicted in the C4 Protein. 7) The C4 gene was initially cloned into pRSET-C vector and overexpressed as histidine tagged protein and the solubility of the protein was tested in various conditions including low temperature (18° C) after inducing the expression of the protein, buffers of various pH and different salt concentrations but the protein remained insoluble. Subsequently, the protein was purified under denaturing conditions and attempts were made to refold the protein but the protein precipitated during refolding. In order to get the C4 protein in soluble form, the C4 gene was subcloned into pGEX-5X2 vector and overexpressed as a GST-tagged fusion protein (GST-C4). Some of the GST-C4 protein was soluble which was purified by using GST-bind resin. The purified fusion protein was observed as a 37 kDa band on SDS-PAGE gel. The purified protein was accompanied by a degraded product of approximately 30 kDa size. Both the intact GST-C4 protein and the degraded product were detected in western blot analysis using anti-GST antibody. 8) Because C4 has been implicated to be involved in movement of monopartite begomoviruses and movement is an energy requiring process, it was of interest to determine if GST-C4 possesses ATPase activity. The purified GST-C4 protein was incubated with γ-[32P]-ATP, the product of the reaction was separated by thin layer chromatography and the chromatography plate was analyzed by phosphorimager. The hydrolysis of ATP by GST-C4 and the release of inorganic phosphate was clearly observed, suggesting that GST-C4 might possess ATPase activity. 9) The reaction conditions for the ATPase activity of GST-C4 were standardized. The activity increased linearly upto 2.60μM of the protein. The optimum temperature and pH for the ATPase activity were found to be 30 C and 6.0 respectively. The activity was inhibited by EDTA, suggesting that it is dependent on divalent metal ions. The activity was stimulated by Mg+2, Mn+2 and Zn+2 but inhibited by Ca+2ions. Further, in the time course experiment, it was observed that the ATPase activity increased linearly upto one hour. 10) The Km, Vmax and kcat for the ATPase activity of GST-C4 were found to be 51.72 ± 2.5 µM, 7.2 ± 0.54 nmoles/min/mg of the protein and 0.27 min-1 respectively. Some of the other virally encoded ATPases have been found to exhibit kcat similar to that found for GST-C4 but it is much lower than those of most of the prokaryotic and eukaryotic ATPases (as mentioned in Table 3.3, page 100, chapter 3). Further, the presence of the degraded product did not affect the kinetic constants as described in chapter 3, pages 95¬-98. It is possible that the enzymatic activity might increase upon interaction with some ligand. 11) In the absence of any putative ATP binding motifs, systematic deletions from N-and C-termini were made to delineate the regions of C4 important for the ATPase activity. GST-N∆15-C4 and GST-N∆30-C4 exhibited approximately 70 % reduction in the ATPase activity while all the C-terminal deletion mutants (GST-C∆10-C4, GST-C∆20¬C4 and GST-C∆30-C4) retained the activity similar to the full length GST-C4 protein. This suggested that the N-terminal region of C4 may contain the residues important for the ATPase activity of GST-C4. 12) In the N-terminal region of C4, there is a sequence CSSSSR which closely resembles the sequence present at the active site of phosphotyrosine phosphatases (CXXXXXR). However, GST-C4 did not catalyze the hydrolysis of p-Nitrophenyl phosphate, a substrate analogue commonly used to assay phosphotyrosine phosphatase activity. It was of interest to determine if the cysteine and arginine in this sequence are important for the ATPase activity of GST-C4. GST-R13A-C4 exhibited an approximately two fold reduction in Vmax suggesting that R13 in C4 may be catalytically important for the ATPase activity of GST-C4. On the other hand, the C8A mutation did not affect the ATPase activity of GST-C4. 13) The GST-C4 protein was tested for its ability to hydrolyze several other phosphate containing compounds as mentioned chapter 2, pages 53-55. Among these compounds, GST-C4 catalyzed the hydrolysis of sodium pyrophosphate, that is, GST-C4 exhibited an inorganic pyrophosphatase activity. 14) The reaction conditions for the inorganic pyrophosphatase activity of GST-C4 were initially standardized. The pyrophosphatase activity of GST-C4 increased linearly upto 3.38 µM of the protein. The optimum temperature and pH for the pyrophosphatase activity were found to be 37° C and 7.0 respectively. The pyrophosphatase activity was inhibited by EDTA, suggesting that it is dependent on divalent metal ions. The activity was most efficiently stimulated by Mg+2, although it was also stimulated by Mn+2and Zn+2but inhibited by Ca+2ions. Thus, the pyrophosphatase activity of GST-C4 resembles the family I inorganic pyrophosphatases in metal ion requirements. Further, the pyrophosphatase activity increased linearly upto 1 hour 30 minutes. 15) The Km, Vmax and Kcat for the pyrophosphatase activity of GST-C4 were found to be 0.76 ± 0.04 mM, 141.16 ± 20 nmoles/min/mg of the protein and 5.2 minrespectively. The kcat for the pyrophosphatase activity was approximately 20 fold higher than that for the ATPase activity (0.27 min-1). 16) GST-N∆15-C4 and GST-N∆30-C4 exhibited >70 % reduction in the pyrophosphatase activity, a finding similar to that for the ATPase activity. On the other hand, while GST-C∆10-C4 retained the activity similar to the full length GST-C4 protein, GST-C∆20-C4 and GST-C∆30-C4 exhibited 20 % and 60 % reduction in the pyrophosphatase activity, respectively, as compared to the full length GST-C4 protein. This suggested that the C-terminal region of C4 may also contain the residues important for the pyrophosphatase activity of GST-C4. However, the C-terminal deletion mutants retained the ATPase activity similar to the full length protein. 17) The pyrophosphatase activity of GST-C4 was stimulated more than three fold by several reducing agents. The C4 protein contains only one cysteine (at position 8 in the C4 sequence). This was the first clue that the cysteine may be important for the pyrophosphatase activity of the GST-C4 protein. Further, the pyrophosphatase activity of GST-C4 did not exhibit preference for a particular kind of reducing agent like that of the pyrophosphatase activity in Streptococcus faecalis. 18) GST-C8A-C4 exhibited more than two fold reduction in Vmax, suggesting that the C8 may be catalytically important for the pyrophosphatase activity of GST-C4. On the other hand, the R13A mutation did not affect the pyrophosphatase activity of the GST-C4 protein. Thus, it is possible that during catalysis, the cysteine thiolate of C4 makes a 19) The pyrophosphatase activity of GST-C4 was inhibited by vanadate and fluoride. Vanadate was found to be a competitive inhibitor with Ki 0.33 mM while fluoride was a non-competitive inhibitor with Ki 2.82 mM. A comparative account of the two enzymatic activities of GST-C4 is presented in table 6.1

Plant Viruses - Proteins

Plant Viruses - Biochemistry

Cotton Leaf Curl Kokhran Virus

Viral Genomes

Dabawali Viruses

Plant Viruses

Monopartite Begomoviruses

Dabawali Viruses - C4 Protein

GST-C4 Protein

Virology

Análise da expressão de RNAs não codificadores longos em adenocarcinoma de pâncreas / Expression analysis of long noncoding RNAs in pancreatic adecarcinoma

Ana Carolina Tahira

03 April 2013

RNAs não codificadores longos (lncRNAs) compõem uma fração significativa do transcriptoma. Alterações na expressão de lncRNAs já foram observadas em vários cânceres humanos, mas ainda não foram exploradas no adenocarcinoma pancreático ductal (PDAC), uma doença devastadora e agressiva para a qual faltam métodos para diagnóstico precoce e tratamentos efetivos. Utilizando uma plataforma de microarranjo de cDNA com sondas para 984 lncRNAs e 2371 mRNAs, o presente estudo identificou conjuntos de lncRNAs expressos em 38 amostras clínicas pancreáticas. O enriquecimento de (i) elementos regulatórios associados às regiões promotoras (H3K4me3); (ii) possíveis inícios de transcrição (CAGE-tags); (iii) presença de elementos conservados sugere que ao menos uma fração desses RNAs seja originada a partir de unidades transcricionais independentes, reguladas e possivelmente funcionais. Foram identificadas assinaturas de expressão gênica compostas por mRNA e lncRNAs associadas ao tumor primário e à metástase pancreática. A assinatura gIenica associada à metástase apresentou enriquecimento RNAs intrônicos de loci gênicos associados à via MAPK quinase. O aumento de expressão dos transcritos intrônicos dos loci PPP3CB, MAP3K14 e DAPK1 foi confirmado por qPCR em metástases. Em conjunto, este trabalho aponta para a importância de lncRNAs intrônicos no PDAC e para a necessidade de estudos mais aprofundados para uma melhor compreensão do papel dessa classe de transcritos na biologia da doença. / Long noncoding RNAs (lncRNAs) compose a significant fraction of transcriptome. Altered expression of lncRNAs has been observed in diverse human cancers, but has not being investigated in pancreatic ductal adenocarcinoma (PDAC), a devastating and aggressive disease that lack early diagnosis methods and effective treatments. Using a cDNA microarray platform with probes interrogating 984 lncRNAs and 2371 mRNA, the present study identified subsets of lncRNAs expressed in 38 pancreatic clinical samples. Enrichment of (i) regulatory elements associated to promoter region (H3K4me3); (ii) putative transcription start site (CAGEtags) and (iii) conserved elements, suggest that at least a fraction of these RNAs could be independent transcriptional unit, regulated, an possibly functional. Gene expression signatures comprised of mRNAs and lncRNAs and associated to primary or metastatic tumors were found. A gene signature associated to metastasis was enriched in intronic ncRNAs mapping to gene loci associated to the MAPK pathway. Over expression of intronic RNAs from PPP3CB, MAP3K14 and DAPK1 was confirmed by qPCR in metastatic samples. Taken together, this study points to the importance of intronic lncRNAs in PDAC and for the need to study this class of ncRNAs in greater detail to better understand its role in the biology of PDAC.

Adenocarcinoma pancreático ductal

Genomas

RNA

RNAs não codificadores longos

Gene expression and cDNA microarray

Genomes

Long noncoding RNAs

Pancreatic ductal adenocarcinoma

RNA

On genome rearrangement models = Sobre modelos de rearranjo de genomas / Sobre modelos de rearranjo de genomas

Feijão, Pedro Cipriano, 1975-

21 August 2018

Orientador: João Meidanis / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Computação / Made available in DSpace on 2018-08-21T17:01:05Z (GMT). No. of bitstreams: 1 Feijao_PedroCipriano_D.pdf: 1943126 bytes, checksum: 4c547e8c568bbd0f2eb8235dfde05524 (MD5) Previous issue date: 2012 / Resumo: Rearranjo de genomas é o nome dado a eventos onde grandes blocos de DNA trocam de posição durante o processo evolutivo. Com a crescente disponibilidade de sequências completas de DNA, a análise desse tipo de eventos pode ser uma importante ferramenta para o entendimento da genômica evolutiva. Vários modelos matemáticos de rearranjo de genomas foram propostos ao longo dos últimos vinte anos. Nesta tese, desenvolvemos dois novos modelos. O primeiro foi proposto como uma definição alternativa ao conceito de distância de breakpoint. Essa distância é uma das mais simples medidas de rearranjo, mas ainda não há um consenso quanto à sua definição para o caso de genomas multi-cromossomais. Pevzner e Tesler deram uma definição em 2003 e Tannier et al. a definiram de forma diferente em 2008. Nesta tese, nós desenvolvemos uma outra alternativa, chamada de single-cut-or-join (SCJ). Nós mostramos que, no modelo SCJ, além da distância, vários problemas clássicos de rearranjo, como a mediana de rearranjo, genome halving e pequena parcimônia são fáceis, e apresentamos algoritmos polinomiais para eles. O segundo modelo que apresentamos é o formalismo algébrico por adjacências, uma extensão do formalismo algébrico proposto por Meidanis e Dias, que permite a modelagem de cromossomos lineares. Esta era a principal limitação do formalismo original, que só tratava de cromossomos circulares. Apresentamos algoritmos polinomiais para o cálculo da distância algébrica e também para encontrar cenários de rearranjo entre dois genomas. Também mostramos como calcular a distância algébrica através do grafo de adjacências, para facilitar a comparação com outras distâncias de rearranjo. Por fim, mostramos como modelar todas as operações clássicas de rearranjo de genomas utilizando o formalismo algébrico / Abstract: Genome rearrangements are events where large blocks of DNA exchange places during evolution. With the growing availability of whole genome data, the analysis of these events can be a very important and promising tool for understanding evolutionary genomics. Several mathematical models of genome rearrangement have been proposed in the last 20 years. In this thesis, we propose two new rearrangement models. The first was introduced as an alternative definition of the breakpoint distance. The breakpoint distance is one of the most straightforward genome comparison measures, but when it comes to defining it precisely for multichromosomal genomes, there is more than one way to go about it. Pevzner and Tesler gave a definition in a 2003 paper, and Tannier et al. defined it differently in 2008. In this thesis we provide yet another alternative, calling it single-cut-or-join (SCJ). We show that several genome rearrangement problems, such as genome median, genome halving and small parsimony, become easy for SCJ, and provide polynomial time algorithms for them. The second model we introduce is the Adjacency Algebraic Theory, an extension of the Algebraic Formalism proposed by Meidanis and Dias that allows the modeling of linear chromosomes, the main limitation of the original formalism, which could deal with circular chromosomes only. We believe that the algebraic formalism is an interesting alternative for solving rearrangement problems, with a different perspective that could complement the more commonly used combinatorial graph-theoretic approach. We present polynomial time algorithms to compute the algebraic distance and find rearrangement scenarios between two genomes. We show how to compute the rearrangement distance from the adjacency graph, for an easier comparison with other rearrangement distances. Finally, we show how all classic rearrangement operations can be modeled using the algebraic theory / Doutorado / Ciência da Computação / Doutor em Ciência da Computação

Bioinformática

Biologia computacional

Genomas

Grupos de permutação

Bioinformatics

Computational biology

Genomes

Permutation groups

Systèmes Ta de la famille ccd, de simples gènes égoïstes? / ccd TA systems, are just selfish genes?

Saavedra De Bast, Manuel

20 March 2009

Les systèmes toxine-antitoxine (TA) sont très répandus au sein des génomes bactériens. Ces opérons bicistroniques de petite taille ont été découverts sur des plasmides à bas nombre de copies. Dans ce contexte génétique, les systèmes TA confèrent un avantage sélectif à leurs molécules-hôtes en tuant les bactéries-filles qui ne les ont pas héritées par le mécanisme de tuerie post-ségrégationnelle (PSK, post-segregational killing). Ces systèmes génétiques sont également appelés modules d’addiction étant donné qu’ils rendent la descendance des bactéries qui les contiennent dépendantes de leur présence. Alors que leur rôle dans les molécules d’ADN épisomiques est relativement bien établi, le sens biologique de la présence d’homologues à ces systèmes épisomiques au sein des chromosomes bactériens est sujet à d’intenses débats. L’idée que les systèmes TA chromosomiques confèrent un avantage sélectif a été mise en évidence dans plusieurs modèles. Selon ces modèles, les systèmes TA permettent aux bactéries de mieux faire face à des conditions environnementales stressantes. <p>Entre-temps, la compréhension de l’évolution des génomes bactériens a connu des avancées significatives. L’impressionnante capacité d’adaptation des bactéries est aujourd’hui majoritairement attribuée au transfert horizontal de gènes (THG) provoqué par les éléments génétiques mobiles (phages, plasmides, transposons…). Dans le débat du rôle des systèmes TA chromosomiques, très peu d’attention a été accordée aux relations phylogénétiques et interactions entre systèmes plasmidiques et chromosomiques co-existant au sein d’un même hôte ainsi qu’à l’impact du THG sur leur évolution. Notre travail de thèse vise à mieux comprendre la biologie des systèmes TA en tenant compte de ces paramètres. Nous nous sommes intéressés à des systèmes homologues au système plasmidique ccdF. Nous avons étudié expérimentalement les 4 systèmes ccd (ccd1, ccd2, ccd3 et ccd4) qui co-habitent au sein du chromosome d’Erwinia chrysanthemi 3937 (une bactérie phytopathogène), leurs interactions intragénomiques et les interactions de ces systèmes avec le système plasmidique ccdF. Ce cadre expérimental a mené à la construction du modèle d’anti-addiction. Ce modèle propose que certains systèmes chromosomiques puissent conférer un avantage sélectif à leurs hôtes bactériens en interférant avec le PSK médié par leurs homologues plasmidiques. Cet avantage sélectif pourrait permettre la fixation de systèmes TA latéralement acquis au sein des populations bactériennes. Nous avons également recherché de nouveaux systèmes ccd au sein des génomes bactériens afin d’avoir un aperçu de leur distribution, des contextes génétiques dans lesquels ils existent et de l’implication du THG dans leur dispersion. Les réflexions qui ont accompagné notre recherche nous ont mené à proposer une synthèse sur le rôle des systèmes TA (plasmidiques et chromosomiques). Celle-ci se nourrit des avancées qui ont été effectuées, ces dernières années, dans la compréhension de l’évolution des génomes bactériens, de la théorie hiérarchique de la sélection naturelle et des processus non-adaptatifs et contingents qui pourraient expliquer la présence et la propagation des systèmes TA au sein des génomes bactériens sans que ceux-ci en soient les agents causaux. <p><p> / Doctorat en sciences, Spécialisation biologie moléculaire / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Biologie

Toxins

Antitoxins

Bacterial genomes

Genetic transformation

Toxines

Antitoxines

Génomes bactériens

Transfert de gènes

éléments génétiques mobiles

transfère horizontal de gènes

systèmes Toxine-antitoxine

Gènes égoïstes