Birrell Geoff W, Brown James A, Wu H Irene, Giaever Guri, Chu Angela M, Davis Ronald W, Brown J Martin
Department of Radiation Oncology, Stanford University School of Medicine, Stanford, CA 94305, USA.
Proc Natl Acad Sci U S A. 2002 Jun 25;99(13):8778-83. doi: 10.1073/pnas.132275199. Epub 2002 Jun 19.
The recent completion of the deletion of all of the nonessential genes in budding yeast has provided a powerful new way of determining those genes that affect the sensitivity of this organism to cytotoxic agents. We have used this system to test the hypothesis that genes whose transcription is increased after DNA damage are important for the survival to that damage. We used a pool of 4,627 diploid strains each with homozygous deletion of a nonessential gene to identify those genes that are important for the survival of yeast to four DNA-damaging agents: ionizing radiation, UV radiation, and exposure to cisplatin or to hydrogen peroxide. In addition we measured the transcriptional response of the wild-type parental strain to the same DNA-damaging agents. We found no relationship between the genes necessary for survival to the DNA-damaging agents and those genes whose transcription is increased after exposure. These data show that few, if any, of the genes involved in repairing the DNA lesions produced in this study, including double-strand breaks, pyrimidine dimers, single-strand breaks, base damage, and DNA cross-links, are induced in response to toxic doses of the agents that produce these lesions. This finding suggests that the enzymes necessary for the repair of these lesions are at sufficient levels within the cell. The data also suggest that the nature of the lesions produced by DNA-damaging agents cannot easily be deduced from gene expression profiling.
最近完成的对芽殖酵母中所有非必需基因的删除,提供了一种强有力的新方法来确定那些影响该生物体对细胞毒性剂敏感性的基因。我们利用这个系统来检验一个假设,即那些在DNA损伤后转录增加的基因对于在该损伤中存活很重要。我们使用了一组4627个二倍体菌株,每个菌株都有一个非必需基因的纯合缺失,以确定那些对于酵母在四种DNA损伤剂(电离辐射、紫外线辐射、顺铂或过氧化氢暴露)作用下存活很重要的基因。此外,我们还测量了野生型亲本菌株对相同DNA损伤剂的转录反应。我们发现,在DNA损伤剂作用下存活所必需的基因与暴露后转录增加的那些基因之间没有关系。这些数据表明,在本研究中产生的DNA损伤(包括双链断裂、嘧啶二聚体、单链断裂、碱基损伤和DNA交联)修复过程中涉及的基因,即使有,也很少会因产生这些损伤的毒性剂量的试剂而被诱导。这一发现表明,修复这些损伤所需的酶在细胞内处于足够的水平。这些数据还表明,从基因表达谱中不容易推断出DNA损伤剂产生的损伤的性质。