人端粒 DNA 序列是抗肿瘤药物博莱霉素的主要靶点。

Human telomeric DNA sequences are a major target for the antitumour drug bleomycin.

机构信息

School of Biotechnology and Biomolecular Sciences, University of New South Wales, Sydney, NSW 2052, Australia.

出版信息

J Biol Inorg Chem. 2012 Jan;17(1):1-9. doi: 10.1007/s00775-011-0818-3. Epub 2011 Jul 15.

Abstract

The DNA sequence specificity of the cancer chemotherapeutic agent bleomycin was examined in a human telomeric DNA sequence and compared with that of non-telomeric sequences. The target DNA sequence contained 17 repeats of the human telomeric sequence and other primary sites of bleomycin cleavage. The 377-base-pair target DNA was fluorescently labelled at the 3'-end, damaged with bleomycin and electrophoresed in an ABI 3730 automated capillary sequencer to determine the intensity and sequence specificity of bleomycin damage. The results revealed that bleomycin cleaved primarily at 5'-GT in the telomeric sequence 5'-GGGTTA. Maxam-Gilbert chemical sequencing reactions were utilised as DNA size markers to determine the precise sites of bleomycin cleavage. The telomeric region contained strong sites of bleomycin cleavage and constituted 57% of the 30 most intense bleomycin damage sites in the DNA sequence examined. These data indicated that telomeric DNA sequences are a major site for bleomycin damage.

摘要

研究了癌症化疗药物博来霉素在人类端粒 DNA 序列中的 DNA 序列特异性，并将其与非端粒序列进行了比较。靶 DNA 序列包含 17 个人类端粒序列重复和博来霉素切割的其他主要部位。377 碱基对的靶 DNA 在 3'末端进行荧光标记，用博来霉素进行损伤，然后在 ABI 3730 自动毛细管测序仪中电泳，以确定博来霉素损伤的强度和序列特异性。结果表明，博来霉素主要在端粒序列 5'-GGGTTA 中的 5'-GT 处切割。利用 Maxam-Gilbert 化学测序反应作为 DNA 大小标记物来确定博来霉素切割的确切位置。端粒区域含有博来霉素切割的强位点，占所研究的 DNA 序列中 30 个最强博来霉素损伤位点的 57%。这些数据表明，端粒 DNA 序列是博来霉素损伤的主要部位。

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人端粒 DNA 序列是抗肿瘤药物博莱霉素的主要靶点。

Human telomeric DNA sequences are a major target for the antitumour drug bleomycin.

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