Analysis of DNA methylation changes following Cfp1 knockout in mouse spermatocytes
Chanhyeok Park, Youngsok Choi, Seonho Yoo, Hyeonwoo La, Kwonho Hong

TL;DR
This study explores how removing the Cfp1 gene affects DNA methylation in mouse spermatocytes, revealing its role in regulating genes important for meiosis and reproduction.
Contribution
The study identifies 21 direct CFP1 target genes and their methylation changes in spermatocytes, expanding understanding of CFP1's epigenetic role.
Findings
CFP1 depletion causes significant DNA methylation changes in promoter regions of genes related to meiosis and chromatin remodeling.
Twenty-one genes were identified as direct CFP1 targets with reduced promoter methylation and CFP1 binding.
The findings enhance understanding of CFP1's role in spermatocyte regulation and infertility mechanisms.
Abstract
Spermatogenesis is a complex biological process that encompasses meiosis in spermatocytes and the dynamic epigenetic alterations that ensure the inheritance of genetic traits. CXXC finger protein 1 (CFP1, Cfp1, CXXC1, Cxxc1) is a critical component of the SET domain-containing 1A histone lysine methyltransferase complex that catalyzes histone H3K4 methylation and has a specific binding domain for unmethylated CpG DNA. However, our current understanding of CFP1’s role in the genome-wide regulation of DNA and H3K4 methylation remains limited. We performed genome-wide methylation analysis using reduced-representation bisulfite sequencing on spermatocytes isolated from Cfp1 knockout and wild-type mice. Promoter methylation changes were integrated with publicly available microarray and ChIP-seq data to identify genes regulated by CFP1. CFP1 depletion led to significant alterations in DNA…
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Taxonomy
TopicsEpigenetics and DNA Methylation
