Genomics

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Genome-wide maps of ZCWPW1 in HEK293T cells with or without PRDM9, plus DMC1 ChIP-seq in ZCWPW1 KO mouse


ABSTRACT: During meiosis, homologous chromosomes pair (synapse) and recombine, enabling balanced segregation and generating genetic diversity. In many vertebrates, recombination initiates with double-strand breaks (DSBs) within hotspots where PRDM9 binds, and deposits H3K4me3 and H3K36me3. However, no protein(s) recognising this unique combination of histone marks have yet been identified. We identified Zcwpw1, which possesses H3K4me3 and H3K36me3 recognition domains, as highly co-expressed with Prdm9. In this study we used ChIP-sequencing in human HEK293T cells (co)-transfected with HA tagged ZCWPW1 (and human or chimp PRDM9). This enabled us to determine that PRDM9 causes the recruitment of ZCWPW1 to its binding sites, and to determine the general binding properties of ZCWPW1 including a preference for CpG sites. We also performed SSDS ChIP-sequencing of mice testis that are homozygous KO for ZCWPW1, revealing that double strand breaks occour at completely normal positions in the ZCWPW1 KO, but with persistant DMC1 at many hotspots, particularly those more strongly bound by PRDM9.

ORGANISM(S): Mus musculus Homo sapiens

PROVIDER: GSE141516 | GEO | 2020/08/01

REPOSITORIES: GEO

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