Sgs1 解旋酶的切除活性改变了酿酒酵母中 DNA 末端与同源重组蛋白的亲和力。
Resection activity of the Sgs1 helicase alters the affinity of DNA ends for homologous recombination proteins in Saccharomyces cerevisiae.
机构信息
Department of Genetics and Development, Columbia University Medical Center, New York, New York 10032-2704.
出版信息
Genetics. 2013 Dec;195(4):1241-51. doi: 10.1534/genetics.113.157370. Epub 2013 Oct 4.
Abstract
The RecQ helicase family is critical during DNA damage repair, and mutations in these proteins are associated with Bloom, Werner, or Rothmund-Thompson syndromes in humans, leading to cancer predisposition and/or premature aging. In the budding yeast Saccharomyces cerevisiae, mutations in the RecQ homolog, SGS1, phenocopy many of the defects observed in the human syndromes. One challenge to studying RecQ helicases is that their disruption leads to a pleiotropic phenotype. Using yeast, we show that the separation-of-function allele of SGS1, sgs1-D664Δ, has impaired activity at DNA ends, resulting in a resection processivity defect. Compromising Sgs1 resection function in the absence of the Sae2 nuclease causes slow growth, which is alleviated by making the DNA ends accessible to Exo1 nuclease. Furthermore, fluorescent microscopy studies reveal that, when Sgs1 resection activity is compromised in sae2Δ cells, Mre11 repair foci persist. We suggest a model where the role of Sgs1 in end resection along with Sae2 is important for removing Mre11 from DNA ends during repair.
摘要
RecQ 解旋酶家族在 DNA 损伤修复过程中至关重要,这些蛋白质的突变与人类的布卢姆综合征、沃纳综合征或罗氏综合征有关,导致癌症易感性和/或早衰。在 budding 酵母酿酒酵母中,RecQ 同源物 SGS1 的突变可模拟人类综合征中观察到的许多缺陷。研究 RecQ 解旋酶的一个挑战是,它们的破坏会导致多效表型。我们使用酵母表明,SGS1 的功能分离等位基因 sgs1-D664Δ 在 DNA 末端的活性受损,导致切除过程性缺陷。在不存在 Sae2 核酸酶的情况下,破坏 Sgs1 切除功能会导致生长缓慢,而通过使 Exo1 核酸酶能够接触 DNA 末端可以缓解这种情况。此外,荧光显微镜研究表明,当 Sae2Δ 细胞中 Sgs1 切除活性受到破坏时,Mre11 修复焦点持续存在。我们提出了一个模型,即 Sgs1 在末端切除中的作用与 Sae2 一起,对于在修复过程中从 DNA 末端去除 Mre11 非常重要。
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