Role of MED1 (MBD4) Gene in DNA repair and human cancer

## Abstract Although most advanced cancers are incurable, the majority of testicular germ cell tumors can be cured using cisplatin‐based combination chemotherapy. The nucleotide excision repair (NER) pathway removes most DNA adducts produced by cisplatin, and the low levels of NER in testis tumor c

The human DNA repair protein MED1 (also known as MBD4) was isolated as an interactor of the mismatch repair protein MLH1 in a yeast two-hybrid screening. MED1 has a tripartite structure with an N-terminal 5-methylcytosine binding domain (MBD), a central region, and a C-terminal catalytic domain with

## Abstract Mutations of BRCA1 gene are associated with more than half the cases of hereditary breast cancer. Breast cancer formation in BRCA1 mutation carriers is generally accompanied by loss of the wild‐type allele, suggesting that BRCA1 protein may function as a tumor suppressor. The human BRCA

## Abstract DNA repair variants may play a potentially important role in an individual's susceptibility to developing cancer. Numerous studies have reported the association between genetic single nucleotide polymorphisms (SNPs) in DNA repair genes and different types of hematologic cancers. However

BRCA1 was the first breast cancer susceptibility gene to be identified and cloned. In individuals from high-risk families, mutations in BRCA1 increase the lifetime risk of developing breast cancer eight to tenfold, compared to the general population. How the BRCA1 protein product normally functions

## Abstract To determine whether variations in DNA repair genes are related to host DNA damage, we investigated the association between polymorphism in the __XPD__ gene (codon 199, 312, 751) and the __XRCC1__ gene (codon 194, 399) and the presence of benzo(a)pyrene diolepoxide adducts to lymphocyte