The cohesin complex has recently been shown to be a key regulator of eukaryotic gene expression, although the mechanisms by which it exerts its effects are poorly understood. We have undertaken a genome-wide analysis of DNA methylation in cohesin-deficient cell lines from probands with Cornelia de Lange syndrome (CdLS). Heterozygous mutations in NIPBL, SMC1A and SMC3 genes account for ∼65% of individuals with CdLS. SMC1A and SMC3 are subunits of the cohesin complex that controls sister chromatid cohesion, whereas NIPBL facilitates cohesin loading and unloading. We have examined the methylation status of 27 578 CpG dinucleotides in 72 CdLS and control samples. We have documented the DNA methylation pattern in human lymphoblastoid cell lines (LCLs) as well as identified specific differential DNA methylation in CdLS. Subgroups of CdLS probands and controls can be classified using selected CpG loci. The X chromosome was also found to have a unique DNA methylation pattern in CdLS. Cohesin preferentially binds to hypo-methylated DNA in control LCLs, whereas the differential DNA methylation alters cohesin binding in CdLS. Our results suggest that in addition to DNA methylation multiple mechanisms may be involved in transcriptional regulation in human cells and in the resultant gene misexpression in CdLS.
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机译:尽管对粘附素复合物发挥其作用的机理了解甚少,但近来已显示其是真核基因表达的关键调节剂。我们对Cornelia de Lange综合征(CdLS)的先证者进行了粘着蛋白缺陷型细胞系中DNA甲基化的全基因组分析。 NIPBL,SMC1A和SMC3基因的杂合突变约占CdLS患者的65%。 SMC1A和SMC3是粘着蛋白复合物的亚基,可控制姐妹染色单体的粘着,而NIPBL则促进粘着蛋白的装载和卸载。我们已经检查了72个CdLS和对照样品中27 578 CpG二核苷酸的甲基化状态。我们已经记录了人类淋巴母细胞系(LCL)中的DNA甲基化模式,以及在CdLS中鉴定了特定的差异DNA甲基化。可以使用选定的CpG基因座对CdLS先证者和对照的亚组进行分类。还发现X染色体在CdLS中具有独特的DNA甲基化模式。黏附素优先与对照LCL中的低甲基化DNA结合,而差异DNA甲基化会改变CdLS中的黏附素结合。我们的结果表明,除了DNA甲基化作用外,人类细胞中的转录调控以及CdLS中产生的基因错误表达也可能涉及多种机制。
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