通过Sgs1(布鲁姆氏综合征蛋白的酿酒酵母同源物)控制高度分化基因之间的易位。
Control of translocations between highly diverged genes by Sgs1, the Saccharomyces cerevisiae homolog of the Bloom's syndrome protein.
作者信息
Schmidt Kristina H, Wu Joann, Kolodner Richard D
机构信息
Department of Biology, University of South Florida, 4202 E. Fowler Avenue, SCA110, Tampa, FL 33620, USA.
出版信息
Mol Cell Biol. 2006 Jul;26(14):5406-20. doi: 10.1128/MCB.00161-06.
Abstract
Sgs1 is a RecQ family DNA helicase required for genome stability in Saccharomyces cerevisiae whose human homologs BLM, WRN, and RECQL4 are mutated in Bloom's, Werner, and Rothmund Thomson syndromes, respectively. Sgs1 and mismatch repair (MMR) are inhibitors of recombination between similar but divergent (homeologous) DNA sequences. Here we show that SGS1, but not MMR, is critical for suppressing spontaneous, recurring translocations between diverged genes in cells with mutations in the genes encoding the checkpoint proteins Mec3, Rad24, Rad9, or Rfc5, the chromatin assembly factors Cac1 or Asf1, and the DNA helicase Rrm3. The S-phase checkpoint kinase and telomere maintenance factor Tel1, a homolog of the human ataxia telangiectasia (ATM) protein, prevents these translocations, whereas the checkpoint kinase Mec1, a homolog of the human ATM-related protein, and the Rad53 checkpoint kinase are not required. The translocation structures observed suggest involvement of a dicentric intermediate and break-induced replication with multiple cycles of DNA template switching.
摘要
Sgs1是酿酒酵母中基因组稳定性所需的RecQ家族DNA解旋酶,其人类同源物BLM、WRN和RECQL4分别在布卢姆综合征、沃纳综合征和罗特蒙德·汤姆森综合征中发生突变。Sgs1和错配修复(MMR)是相似但不同(同源)DNA序列之间重组的抑制剂。在这里,我们表明,SGS1而非MMR对于抑制在编码检查点蛋白Mec3、Rad24、Rad9或Rfc5、染色质组装因子Cac1或Asf1以及DNA解旋酶Rrm3的基因发生突变的细胞中,不同基因之间自发的、反复出现的易位至关重要。S期检查点激酶和端粒维持因子Tel1(人类共济失调毛细血管扩张症(ATM)蛋白的同源物)可防止这些易位,而检查点激酶Mec1(人类ATM相关蛋白的同源物)和Rad53检查点激酶则不需要。观察到的易位结构表明涉及双着丝粒中间体以及具有多个DNA模板切换周期的断裂诱导复制。
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