中文摘要：

DNA错配修复是细胞复制后的一种修复机制，具有维持DNA复制保真度，控制基因变异的作用。DNA错配修复缺陷使整个基因组不稳定，最终会导致肿瘤和癌症的发生。DNA错配修复系统不仅通过矫正在DNA重组和复制过程中产生的碱基错配而保持基因组的稳定，而且通过诱导DNA损伤细胞的凋亡而消除由突变细胞生长形成的癌变。错配修复缺陷细胞的抗药性也引起了癌症化疗研究方面的关注。大多数情况下，错配修复健全型细胞对肿瘤化疗药物敏感，而错配修复缺陷细胞却有较高的抗性。DNA错配修复系统通过修复和诱导细胞凋亡维护基因组稳定的功能，显示了错配修复途径在癌症生物学和分子医学中的重要性。

英文摘要：

DNA mismatch repair （MMR） primarily corrects mismatched or unpaired bases incorporated by DNA polymerase, increasing the overall fidelity of DNA replication. DNA MMR system not only ensures the precision of chromosomal replication and maintains genomic stability by correcting the mismatches during the replication and recombination, but also eliminate cancer cells by promoting apoptosis of cells with severely damaged DNA. Defective mismatch repair proteins result in genomic instability, elevated mutation rate and increased incidence of various cancers. It has been found almost universally that while cells that are proficient in MMR are sensitive to chemical agents, cells that are deficient in MMR are more resistant to killing by these agents. While MMR-mediated apoptosis is important for tumor suppression, the drug resistance property of MMR-deficient cells raises concerns for cancer chemotherapy. The genomic maintenance capability of MMR by both its repair and apoptotic functions underscores the importance of the MMR pathway in cancer biology and molecular medicine.