4 resultados para NONCODING DNA
em Université de Montréal, Canada
Resumo:
Ce livre est la conclusion d’un projet de recherche de deux ans portant sur les technologies en génétique humaine. Les développements récents en matière de collecte, d’analyse et de conservation du matériel génétique ont soulevé des questions juridiques complexes et ont attiré l’attention de plusieurs avocats, scientifiques et du public. Ce livre présente une analyse de ces questions et une comparaison de la position et de la politique canadienne avec celle en émergence dans divers pays
Resumo:
Affiliation: Zhujun Ao, Éric Cohen & Xiaojian Yao : Département de microbiologie et immunologie, Faculté de Médecine, Université de Montréal
Resumo:
Proteolytic processing of the CUX1 transcription factor generates an isoform, p110 that accelerates entry into S phase. To identify targets of p110 CUX1 that are involved in cell cycle progression, we performed genome-wide location analysis using a promoter microarray. Since there are no antibodies that specifically recognize p110, but not the full-length protein, we expressed physiological levels of a p110 isoform with two tags and purified chromatin by tandem affinity purification (ChAP). Conventional ChIP performed on synchronized populations of cells confirmed that p110 CUX1 is recruited to the promoter of cell cycle-related targets preferentially during S phase. Multiple approaches including silencing RNA (siRNA), transient infection with retroviral vectors, constitutive expression and reporter assays demonstrated that most cell cycle targets are activated whereas a few are repressed or not affected by p110 CUX1. Functional classes that were over-represented among targets included DNA replication initiation. Consistent with this finding, constitutive expression of p110 CUX1 led to a premature and more robust induction of replication genes during cell cycle progression, and stimulated the long-term replication of a plasmid bearing the oriP replicator of Epstein Barr virus (EBV).
