人类核苷酸切除修复基因ERCC4的分子克隆

Molecular cloning of the human nucleotide-excision-repair gene ERCC4.

作者信息

Thompson L H, Brookman K W, Weber C A, Salazar E P, Reardon J T, Sancar A, Deng Z, Siciliano M J

机构信息

Biology and Biotechnology Research Program, Lawrence Livermore National Laboratory, Livermore, CA 94551-0808.

出版信息

Proc Natl Acad Sci U S A. 1994 Jul 19;91(15):6855-9. doi: 10.1073/pnas.91.15.6855.

DOI:10.1073/pnas.91.15.6855

PMID:8041709

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC44296/

Abstract

ERCC4 was previously identified in somatic cell hybrids as a human gene that corrects the nucleotide-excision-repair deficiency in mutant hamster cells. The cloning strategy for ERCC4 involved transfection of the repair-deficient hamster cell line UV41 with a human sCos-1 cosmid library derived from chromosome 16. Enhanced UV resistance was seen with one cosmid-library transformant and two secondary transformants of UV41. Cosmid clones carrying a functional ERCC4 gene were isolated from a library of a secondary transformant by selecting in Escherichia coli for expression of a linked neomycin-resistance gene that was present in the sCos-1 vector. The cosmids mapped to 16p13.13-p13.2, the location assigned to ERCC4 by using somatic cell hybrids. Upon transfection into UV41, six cosmid clones gave partial correction ranging from 30% to 64%, although all appeared to contain the complete gene. The capacity for in vitro excision of thymine dimers from a plasmid by transformant cell extracts correlated qualitatively with enhanced UV resistance.

摘要

ERCC4 先前在体细胞杂种中被鉴定为一种人类基因，它可纠正突变仓鼠细胞中的核苷酸切除修复缺陷。ERCC4 的克隆策略包括用源自 16 号染色体的人类 sCos-1 黏粒文库转染修复缺陷的仓鼠细胞系 UV41。在一个黏粒文库转化体以及 UV41 的两个次级转化体中观察到紫外线抗性增强。通过在大肠杆菌中选择表达 sCos-1 载体中存在的连锁新霉素抗性基因，从一个次级转化体的文库中分离出携带功能性 ERCC4 基因的黏粒克隆。这些黏粒定位于 16p13.13 - p13.2，这是通过体细胞杂种确定的 ERCC4 的位置。转染到 UV41 中后，六个黏粒克隆产生了 30%至 64%的部分校正，尽管所有克隆似乎都包含完整的基因。转化体细胞提取物从质粒中体外切除胸腺嘧啶二聚体的能力与增强的紫外线抗性在质量上相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca77/44296/512abe5b684a/pnas01137-0150-a.jpg

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人类核苷酸切除修复基因ERCC4的分子克隆

Molecular cloning of the human nucleotide-excision-repair gene ERCC4.

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