酵母细胞周期检查点控制基因人类同源物的一组人类肿瘤细胞系的基因型测定:携带同源等位基因错义碱基替换的细胞系的鉴定。

Y Ejima, L Yang
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引用次数: 10

摘要

近年来已经发现了许多酵母细胞周期检查点控制基因的人类同源物。本研究采用pcr -单链构象多态性(PCR-SSCP)方法,在25个人类肿瘤细胞系中分析了6个新的人类基因(hRAD1、hRAD9、hRAD17、hHUS1、CHK1和CHES1)的序列变化,试图寻找人体系统中可能存在的检查点相关基因改变的体内病例。对于hRAD9、hHUS1或CHK1,在所有测试的细胞系中均未检测到SSCP变异,表明这些基因在人类癌症中的高度稳定性。在其他三个基因中发现的大多数SSCP变异是由于单核苷酸碱基替换。两个细胞系在缺失型碱基替换上发现纯合子,即Saos-2在hRAD17中是1637T- >G的同等位基因;和COLO320DM用于CHES1中的1189G- >A,表明这些细胞系可能用于进一步研究。hRAD17的前一个核苷酸变化导致密码子546处的氨基酸从精氨酸变为赖氨酸,这被认为是多态的。考虑到赖氨酸而非精氨酸是裂变酵母、小鼠和猴子在相应位置保存较好的氨基酸,这两种等位基因在人类中共存可能具有功能或选择意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determination of the genotype of a panel of human tumor cell lines for the human homologues of yeast cell cycle checkpoint control genes: identification of cell lines carrying homoallelic missense base substitutions.

A number of human homologues of yeast cell cycle checkpoint control genes have been identified recently. In this study, the sequence alterations in six of such novel human genes (hRAD1, hRAD9, hRAD17, hHUS1, CHK1 and CHES1) were analyzed by PCR-single-strand conformational polymorphism (PCR-SSCP) method on a panel of 25 human tumor cell lines in an attempt to search for possible in vivo cases where any of the checkpoint-related genes are altered in human systems. For hRAD9, hHUS1 or CHK1, no SSCP variant was detected in any of the cell lines tested, indicating a high stability of these genes in human cancer. Most of the SSCP variants found in the other three genes were due to single nucleotide base substitutions. Two cell lines were found to be homozygous for missense-type base substitutions, i.e., Saos-2 was homoallelic for 1637T-->G in hRAD17; and COLO320DM for 1189G-->A in CHES1, indicating a possible use of these cell lines for further study. The former nucleotide change in hRAD17, which causes a change of amino acid from arginine to lysine at codon 546, was supposed to be polymorphic. Considering that lysine, but not arginine, is the amino acid that is well conserved among fission yeast, mouse and monkey at the corresponding position, coexistence of both alleles in human may have a functional or selectional implication.

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