Mallory Julia C, Bashkirov Vladimir I, Trujillo Kelly M, Solinger Jachen A, Dominska Margaret, Sung Patrick, Heyer Wolf Dietrich, Petes Thomas D
Department of Biology and Curriculum in Genetics and Molecular Biology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599-3280, USA.
DNA Repair (Amst). 2003 Sep 18;2(9):1041-64. doi: 10.1016/s1568-7864(03)00115-0.
In eukaryotes, mutations in a number of genes that affect DNA damage checkpoints or DNA replication also affect telomere length [Curr. Opin. Cell Biol. 13 (2001) 281]. Saccharomyces cerevisae strains with mutations in the TEL1 gene (encoding an ATM-like protein kinase) have very short telomeres, as do strains with mutations in XRS2, RAD50, or MRE11 (encoding members of a trimeric complex). Xrs2p and Mre11p are phosphorylated in a Tel1p-dependent manner in response to DNA damage [Genes Dev. 15 (2001) 2238; Mol. Cell 7 (2001) 1255]. We found that Xrs2p, but not Mre11p or Rad50p, is efficiently phosphorylated in vitro by immunopreciptated Tel1p. Strains with mutations eliminating all SQ and TQ motifs in Xrs2p (preferred targets of the ATM kinase family) had wild-type length telomeres and wild-type sensitivity to DNA damaging agents. We also showed that Rfa2p (a subunit of RPA) and the Dun1p checkpoint kinase, which are required for DNA damage repair and which are phosphorylated in response to DNA damage in vivo, are in vitro substrates of the Tel1p and Mec1p kinases. In addition, Dun1p substrates with no SQ or TQ motifs are phosphorylated by Mec1p in vitro very inefficiently, but retain most of their ability to be phosphorylated by Tel1p. We demonstrated that null alleles of DUN1 and certain mutant alleles of RFA2 result in short telomeres. As observed with Xrs2p, however, strains with mutations of DUN1 or RFA2 that eliminate SQ motifs have no effect on telomere length or DNA damage sensitivity.
在真核生物中,许多影响DNA损伤检查点或DNA复制的基因突变也会影响端粒长度[《细胞生物学当前观点》13 (2001) 281]。TEL1基因(编码一种类似ATM的蛋白激酶)发生突变的酿酒酵母菌株具有非常短的端粒,XRS2、RAD50或MRE11(编码三聚体复合物成员)发生突变的菌株也是如此。响应DNA损伤时,Xrs2p和Mre11p以Tel1p依赖的方式被磷酸化[《基因与发育》15 (2001) 2238;《分子细胞》7 (2001) 1255]。我们发现,免疫沉淀的Tel1p在体外能有效地磷酸化Xrs2p,但不能磷酸化Mre11p或Rad50p。Xrs2p中消除所有SQ和TQ基序(ATM激酶家族的首选靶点)的突变菌株具有野生型长度的端粒,并且对DNA损伤剂具有野生型敏感性。我们还表明,Rfa2p(RPA的一个亚基)和Dun1p检查点激酶是DNA损伤修复所必需的,并且在体内响应DNA损伤时会被磷酸化,它们是Tel1p和Mec1p激酶的体外底物。此外,没有SQ或TQ基序的Dun1p底物在体外被Mec1p磷酸化的效率非常低,但仍保留了大部分被Tel1p磷酸化的能力。我们证明,DUN1的无效等位基因和RFA2的某些突变等位基因会导致端粒缩短。然而,与Xrs2p的情况一样,DUN1或RFA2发生消除SQ基序突变的菌株对端粒长度或DNA损伤敏感性没有影响。
