Academic literature on the topic 'Elément intégratif conjugatif (ICE)'
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Dissertations / Theses on the topic "Elément intégratif conjugatif (ICE)":
Laroussi, Haifa. "Étude des mécanismes moléculaires d'initiation du transfert conjugatif d'ICESt3, médiée par une relaxase MOBT chez la bactérie Gram+ Streptococcus thermophilus." Electronic Thesis or Diss., Université de Lorraine, 2022. http://www.theses.fr/2022LORR0176.
Bacterial genomes evolve mainly through horizontal gene transfer. Bacterial conjugation is one of the major mechanisms for these transfers. Conjugation is mediated by integrative and conjugative elements (ICE). In addition to their transfer function, ICEs encode other functions that may provide an adaptive advantage to their host, such as resistance to antibiotics whose dissemination is a major public health issue. It is therefore necessary to understand how ICEs are transferred in order to limit their dissemination.The transfer of an ICE from a donor cell to a recipient cell requires its excision from the chromosome, its transfer from one cell to the other and then its integration into the genomes of the two partner cells. According to the literature, the initiation of ICE transfer is mediated by a nucleoprotein complex called relaxosome, whose key protein is the relaxase, a transesterase encoded by the element. The role of the relaxase is to perform a single-stranded cleavage on the DNA of the ICE at a conserved site, called nic. This cleavage releases a free 3'OH end, used as a primer to initiate rolling circle replication. The DNA-relaxase complex is then driven to the conjugation pore.During my PhD thesis, I studied ICESt3 from Streptococcus thermophilus which belongs to the ICESt3/Tn916/ICEBs1 superfamily, widespread among Firmicutes. These ICEs encode a non-canonical relaxase belonging to the MOBT family, which is related to the rolling circle replication initiators of the Rep_trans family. The general objective of my thesis was to elucidate the function of the RelSt3 relaxase in order to decipher the molecular mechanisms of initiation of conjugative transfer mediated by a MOBT relaxase.My work led to the identification of the RelSt3 binding site on ICESt3 origin of transfer (oriT). This site, called bind, is peculiar in that it is distant from the nic site, which is not the case for other relaxase families. RelSt3 possesses an HTH domain at its N-terminus. I have shown that this domain is required for the binding of RelSt3 to its bind site, and that it is important for its catalytic activity. Conjugation assays demonstrated that this HTH domain is crucial for the conjugative transfer of ICESt3. Structural predictions of the HTH domain in complex with DNA led to the identification of the interaction interface with the bind site, confirmed by mutagenesis. I also demonstrated that RelSt3 exhibits a nicking-closing activity and that it covalently binds to the 5' end of the cleaved strand, demonstrating that this enzyme participates in both initial and final steps of conjugation.In the literature, it has been shown that relaxases interact frequently with other accessory proteins, encoded by the ICE or by the host bacteria, participating in relaxosome formation. The second objective of my thesis was to identify RelSt3 partners. Comparisons with available data on ICEBs1 from Bacillus subtilis allowed to identify two candidate proteins, OrfL and OrfM, that may belong to the relaxosome of ICESt3, as well as a cellular helicase, PcrA , probably involved in the rolling circle replication. A characterization of these proteins was performed using biochemical and biophysical approaches. The interaction network between all of these proteins was established using in vitro approaches, as well as with the in vivo two-hybrid approach. These data provide a first insight into the components of the ICESt3 relaxasome. I also showed that OrfL and OrfM stimulate the catalytic activity of RelSt3 in vitro, and that they are both essential for ICESt3 conjugation.This work lead to a better understanding of the molecular mechanisms required during the conjugation of an ICE driven by a MOBT family relaxase
Possoz, Christophe. "PSAM2, élément intégratif modèle pour caractériser le transfert conjugatif chez Streptomyces." Paris, Institut national d'agronomie de Paris Grignon, 2002. http://www.theses.fr/2002INAP0012.
Bellanger, Xavier. "Transfert, accrétion et mobilisation des éléments intégratifs conjugatifs et des îlots génomiques apparentés de "Streptococcus termophilus" : Un mécanisme clef de l'évolution bactérienne ?" Thesis, Nancy 1, 2009. http://www.theses.fr/2009NAN10125/document.
Analyses of genomes had suggested that numerous bacterial genomic islands would be integrative conjugative elements (ICEs) or elements deriving from them. ICEs excise under a circular form by site-specific recombination, transfer by conjugation, and integrate in a recipient cell. The type of elements is very widespread in genomes of bacteria and archaea. Various related genomic islands are integrated at the 3' of the fda ORF in different Streptococcus thermophilus strains. This family includes 2 integrative and potentially conjugative elements, of which ICESt3, and 4 elements deriving from ICEs by deletion and named CIMEs (cis mobilizable elements). This work has demonstrated that ICESt3 transfers between S. thermophilus and related species. This element is the first conjugative element identified in this streptococcus. The ICESt3 transfer to a cell already carrying an ICE or a CIME leads to the characterization of site-specific accretions of ICESt3 and a related genomic island. Using donor cell harboring a CIME-ICE tandem, the co-transfer of the CIME and the ICE, the transfer of the ICE and the transfer of the only CIME were obtained, demonstrating conjugative mobilization of a CIME by ICESt3. Thus, the genomic islands from S. thermophilus evolve by site-specific accretion and conjugative mobilization. Moreover, an analysis of sequences from databases and an analysis of literature strongly suggest that CIMEs are widespread and that site-specific accretions between genomic islands play a key role in bacterial evolution
Carraro, Nicolas. "Analyse comparative de la dynamique de deux éléments intégratifs conjugatifs de streptococcus thermophilus." Thesis, Nancy 1, 2011. http://www.theses.fr/2011NAN10080/document.
Integrative and Conjugative Elements (ICEs) are genomic islands, which excise from the chromosome, self-transfer by conjugation and integrate. They harbor a modular organization: genes and sequences involved in the same biological process are grouped in the same region. This work concerns the modality of transfer and maintenance of ICESt1 and ICESt3, two ICEs of Streptococcus thermophilus that share closely related core region. ICESt1 excises much less frequently than ICESt3. Nevertheless, excision of the two elements is activated by the same stimuli (DNA damage, stationary phase and/or cell density) and depends of the host strain. Bioinformatical and transcriptional analyses highlight several differences in their organization. However, each of these two ICEs would encode two different regulators, cI and ImmR, suggesting that a complex and original pathway govern to ICESt1' and ICESt3' regulation. This regulation would be shared with numerous ICEs that we identified in the genome of various commensal or pathogenic streptococci. According to the original definition, ICE's maintenance would be exclusively due to their integration in the host chromosome, and ICEs would not be able of extracellular replication. However, in addition to the induction of ICESt3' excision and transfer, DNA damage cause replication of its extrachromosomal form. This unexpected property is encoded by the core region and would be implicated in the maintenance of the element. Comparision with data recently published on other ICEs suggest that intracellular replication could be involved in the maintenance of numerous ICEs, besides their integration
Nouvel, Laurent-Xavier. "Etude de la diversité génétique de Mycoplasma agalactiae : plasticité des génomes, mobilome et dynamique de surface." Thesis, Toulouse, INPT, 2009. http://www.theses.fr/2009INPT013A/document.
Mycoplasma agalactiae is responsible of contagious agalactia, a disease of small ruminants that is still difficult to control and is listed by the OIE. In order to evaluate the genetic diversity of this pathogen, 101 isolates were compared using three techniques (VNTR, RFLP, vpma repertoire). Results revealed a high genetic homogeneity with the PG2 type strain as representative. Some isolates however diverged such as the 5632 which was sequenced and analysed here. Whole comparative genomic and proteomic analyses of the 5632 and PG2 strains indicate that their genomic plasticity resides in important genes flux and in the presence of several mobile genetic elements (10% of the genome). These analyses also revealed that specific loci encoding repertoire of surface proteins are highly dynamic. For these minimal bacteria that lack a cell-wall, these events have most likely played a major role in their survival and adaptation to complex hosts