The amniote-conserved DNA-binding domain of CGGBP1 restricts cytosine methylation of transcription factor binding sites in proximal promoters to regulate gene expression.

IF 1.9 Q3 GENETICS & HEREDITY
Ishani Morbia, Praveen Kumar, Aditi Lakshmi Satish, Akanksha Mudgal, Subhamoy Datta, Umashankar Singh
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引用次数: 0

Abstract

CGGBP1 is a GC-rich DNA-binding protein which is important for genomic integrity, gene expression and epigenome maintenance through regulation of CTCF occupancy and cytosine methylation. It has remained unclear how CGGBP1 integrates multiple diverse functions with its simple architecture of only a DNA-binding domain tethered to a C-terminal tail with low structural rigidity. We have used truncated forms of CGGBP1 with or without the DNA-binding domain (DBD) to assay cytosine methylation and global gene expression. Proximal promoters of CGGBP1-repressed genes, although significantly GC-poor, contain GC-rich transcription factor binding motifs and exhibit base compositions indicative of low C-T transition rates due to prevention of cytosine methylation. Genome-wide analyses of cytosine methylation and binding of CGGBP1 DBD show that CGGBP1 restricts cytosine methylation in a manner that depends on its DBD and its DNA-binding. The CGGBP1-repressed genes show an increase in promoter cytosine methylation alongside a decrease in transcript abundance when the DBD-deficient CGGBP1 is expressed. Our findings suggest that CGGBP1 protects transcription factor binding sites (TFBS) from cytosine methylation-associated loss and thereby regulates gene expression. By analysing orthologous promoter sequences we show that restriction of cytosine methylation is a function of CGGBP1 progressively acquired during vertebrate evolution. A superimposition of our results and evolution of CGGBP1 suggests that mitigation of cytosine methylation is majorly achieved by its N-terminal DBD. Our results position CGGBP1 DNA-binding as a major evolutionarily acquired mechanism through which it keeps cytosine methylation under check and regulates TFBS retention and gene activity.

CGGBP1 的羊膜保守 DNA 结合域限制近端启动子中转录因子结合位点的胞嘧啶甲基化,从而调控基因表达。
CGGBP1 是一种富含 GC 的 DNA 结合蛋白,通过调控 CTCF 占有率和胞嘧啶甲基化,对基因组完整性、基因表达和表观基因组的维护具有重要作用。CGGBP1 的结构简单,只有一个 DNA 结合域与结构刚度较低的 C 端尾部相连,但它是如何整合多种不同功能的,目前仍不清楚。我们利用含有或不含 DNA 结合域(DBD)的 CGGBP1 截短形式来检测胞嘧啶甲基化和全局基因表达。CGGBP1抑制基因的近端启动子虽然明显缺乏GC,但含有富含GC的转录因子结合基团,并且由于胞嘧啶甲基化的阻止,其碱基组成显示出较低的C-T转换率。对胞嘧啶甲基化和 CGGBP1 DBD 结合的全基因组分析表明,CGGBP1 限制胞嘧啶甲基化的方式取决于其 DBD 及其 DNA 结合。当 DBD 缺失的 CGGBP1 表达时,CGGBP1 抑制基因的启动子胞嘧啶甲基化增加,同时转录本丰度下降。我们的研究结果表明,CGGBP1 保护转录因子结合位点(TFBS)免受胞嘧啶甲基化相关损失,从而调节基因表达。通过分析同源启动子序列,我们发现限制胞嘧啶甲基化是 CGGBP1 在脊椎动物进化过程中逐渐获得的一种功能。我们的研究结果与 CGGBP1 进化过程的叠加表明,胞嘧啶甲基化的缓解主要是通过其 N 端 DBD 实现的。我们的研究结果将 CGGBP1 的 DNA 结合定位为一种主要的进化机制,通过这种机制,CGGBP1 可控制胞嘧啶甲基化并调节 TFBS 的保留和基因活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
4.90
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