人类从头甲基转移酶 3A(DNMT3A)的固有连续性通过 DNMT3L 得到增强。
The inherent processivity of the human de novo methyltransferase 3A (DNMT3A) is enhanced by DNMT3L.
机构信息
Interdepartmental Program in Biomolecular Science and Engineering, University of California, Santa Barbara, California 93106-9510, USA.
出版信息
J Biol Chem. 2010 Sep 17;285(38):29091-100. doi: 10.1074/jbc.M110.142513. Epub 2010 Jul 14.
Abstract
Human DNMT3A is responsible for de novo DNA cytosine methylation patterning during development. Here we show that DNMT3A methylates 5-8 CpG sites on human promoters before 50% of the initially bound enzyme dissociates from the DNA. Processive methylation is enhanced 3-fold in the presence of DNMT3L, an inactive homolog of DNMT3A, therefore providing a mechanism for the previously described DNMT3L activation of DNMT3A. DNMT3A processivity on human promoters is also regulated by DNA topology, where a 2-fold decrease in processivity was observed on supercoiled DNA in comparison with linear DNA. These results are the first observation that DNMT3A utilizes this mechanism of increasing catalytic efficiency. Processive de novo DNA methylation provides a mechanism that ensures that multiple CpG sites undergo methylation for transcriptional regulation and silencing of newly integrated viral DNA.
摘要
人类 DNMT3A 负责在发育过程中从头建立 DNA 胞嘧啶甲基化模式。在这里,我们发现,在最初结合的酶有 50%从 DNA 上解离之前,DNMT3A 会在人类启动子上甲基化 5-8 个 CpG 位点。在 DNMT3L(DNMT3A 的无活性同源物)存在的情况下,连续甲基化的效率提高了 3 倍,因此为先前描述的 DNMT3L 激活 DNMT3A 提供了一种机制。DNMT3A 在人类启动子上的连续性也受到 DNA 拓扑结构的调节,与线性 DNA 相比,超螺旋 DNA 上的连续性降低了 2 倍。这些结果是首次观察到 DNMT3A 利用这种提高催化效率的机制。连续的从头 DNA 甲基化提供了一种机制,可确保多个 CpG 位点发生甲基化,从而进行转录调控,并沉默新整合的病毒 DNA。
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