Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:This SuperSeries is composed of the following subset Series: GSE32967: Modeling lethal prostate cancer variant with small cell carcinoma features [expression profile] GSE33053: Modeling lethal prostate cancer variant with small cell carcinoma features [genomic profile] Refer to individual Series

Project description:Chromatin states and genomic organization impact local replication features and timing

Project description:The replication timing program, or the order in which DNA is duplicated during S-phase, is associated with various features of chromosome structure and function, including gene expression, histone modifications, and 3-D compartmentalization of chromatin. 3 cell types, with a total of 6 individual replicates

Project description:Chromatin states and genomic organization impact local replication features and timing [ChIP-seq]

Project description:Chromatin states and genomic organization impact local replication features and timing [Repli-seq]

Project description:The human A-family DNA polymerase M-NM-8 (Pol q) is a large, multidomain enzyme whose physiological function is still unclear despite its in vitro translesion synthesis capacity in front of DNA damage and its involvement in some features of DNA repair after external stress. Here we present evidence that Pol q holds a novel role in the absence of external stress as a critical determinant of the replication timing program in human cells. Pol q binds to chromatin at early G1 and is required for proper formation of pre-replicative complexe and replication origin activation. Pol q-depleted cells show modified spatial organization of chromatin-loop structures at replication factories. Genome-wide analysis of replication timing shows delayed replication of a part of early replicating domains and advanced replication of a part of late replicating domains following Pol q depletion. Our results identify Pol q as one of the first critical human factors discovered in the replication timing programme. Two-condition experiment, siRNA control vs. siRNA polQ cells. Biological replicates: 2 control replicates, 2 transfected replicates.

Project description:The human A-family DNA polymerase M-NM-8 (Pol q) is a large, multidomain enzyme whose physiological function is still unclear despite its in vitro translesion synthesis capacity in front of DNA damage and its involvement in some features of DNA repair after external stress. Here we present evidence that Pol q holds a novel role in the absence of external stress as a critical determinant of the replication timing program in human cells. Pol q binds to chromatin at early G1 and is required for proper formation of pre-replicative complexe and replication origin activation. Pol q-depleted cells show modified spatial organization of chromatin-loop structures at replication factories. Genome-wide analysis of replication timing shows delayed replication of a part of early replicating domains and advanced replication of a part of late replicating domains following Pol q depletion. Our results identify Pol q as one of the first critical human factors discovered in the replication timing programme. Two-condition experiment, control vs. over expressed polQ cells. Biological replicates: 2 control replicates, 2 transfected replicates.

Project description:The replication timing program, or the order in which DNA is duplicated during S-phase, is associated with various features of chromosome structure and function, including gene expression, histone modifications, and 3-D compartmentalization of chromatin.

Project description:Replication timing for the replication fountains