人类c-K-ras癌基因的激活。

Activation of a human c-K-ras oncogene.

作者信息

Yamamoto F, Perucho M

出版信息

Nucleic Acids Res. 1984 Dec 11;12(23):8873-85. doi: 10.1093/nar/12.23.8873.

DOI:10.1093/nar/12.23.8873

PMID:6096811

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC320425/

Abstract

The human lung carcinomas PR310 and PR371 contain activated c-K-ras oncogenes. The oncogene of PR371 was found to present a mutation at codon 12 of the first coding exon which substitutes cysteine for glycine in the encoded p21 protein. We report here that the transforming gene of PR310 tumor contains a mutation in the second coding exon. An A----T transversion at codon 61 results in the incorporation of histidine instead of glutamine in the c-K-ras gene product. By constructing c-K-ras/c-H-ras chimeric genes we show that this point mutation is sufficient to confer transforming potential to ras genes, and that a hybrid ras gene coding for a protein mutant at both codons 12 and 61 is also capable of transforming NIH3T3 cells. The relative transforming potency of p21 proteins encoded by ras genes mutant at codons 12, 61 or both has been analyzed. Our studies also show that the coding exons of ras genes, including the fourth, can be interchanged and the chimeric p21 ras proteins retain their oncogenic ability in normal rodent established cell lines.

摘要

人肺癌PR310和PR371含有激活的c-K-ras癌基因。发现PR371的癌基因在第一个编码外显子的第12密码子处存在突变，该突变使编码的p21蛋白中的甘氨酸被半胱氨酸取代。我们在此报告，PR310肿瘤的转化基因在第二个编码外显子中存在突变。第61密码子处的A→T颠换导致c-K-ras基因产物中组氨酸取代了谷氨酰胺。通过构建c-K-ras/c-H-ras嵌合基因，我们表明该点突变足以赋予ras基因转化潜能，并且编码在第12和61密码子处均为突变蛋白的杂交ras基因也能够转化NIH3T3细胞。已分析了在第12、61密码子或两者处发生突变的ras基因所编码的p21蛋白的相对转化能力。我们的研究还表明，ras基因的编码外显子，包括第四个外显子，可以互换，并且嵌合的p21 ras蛋白在正常啮齿动物建立的细胞系中保留其致癌能力。

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