苯酚和氨基二酚- cbi - tmi化合物的DNA烷基化模式的比较:使用PCR方法简便制备单端标记的双链DNA。

Anti-cancer drug design Pub Date : 1999-02-01
M A Gieseg, J Matejovic, W A Denny
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引用次数: 0

摘要

5-羟基和5-氨基-二羟基- cbi - tmi小槽烷基化剂都是非常有效的细胞毒素。两种化合物的两个对映体的烷基化模式在gpt基因的一个片段上进行了比较。所有化合物仅在腺嘌呤上烷基化,而氨基化合物的选择性稍强。对S(天然)对映体的一致烷基化序列是相同的,但对R(非天然)对映体的一致烷基化序列略有不同。一致的序列表明,S对映体在烷基化腺嘌呤的3′->5′方向结合,但没有明确的指示R对映体在DNA上的哪个方向。两种S对映体的烷基化效率都是R对映体的10- 100倍,氨基化合物的烷基化效率略高于相应的酚类。S对映体比R对映体具有更强的细胞毒性。这项工作所需的大量末端标记DNA是通过首先对适当的引物寡核苷酸进行末端标记,然后通过PCR扩增获得的。与其他正在使用的方法相比,这是一个简单而灵活的一步程序,可用于制备任何序列的标记DNA。报道了5-羟基-二羟基- cbi - tmi合成方法的改进。
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Comparison of the patterns of DNA alkylation by phenol and amino seco-CBI-TMI compounds: use of a PCR method for the facile preparation of single end-labelled double-stranded DNA.

Both 5-hydroxy- and 5-amino-seco-CBI-TMI minor groove alkylators are very potent cytotoxins. The patterns of alkylation of the two enantiomers of both compounds were compared on a section of the gpt gene. All of the compounds alkylated only at adenines, with the amino compounds being slightly more selective. Consensus alkylation sequences for both S (natural) enantiomers were identical, but for the R (unnatural) enantiomers these varied slightly. The consensus sequences suggest that the S enantiomers bind lying in the 3'-->5' direction from the alkylated adenine, but there was no clear indication of which direction the R enantiomers lie on the DNA. Both S enantiomers were 10- to 100-fold more efficient alkylators than the R enantiomers, and the amino compounds were somewhat more efficient than the corresponding phenols. The S enantiomers were more cytotoxic then the R in both the phenol and amino series. The large amounts of end-labelled DNA required for this work was obtained by first end-labelling appropriate primer oligonucleotides, then amplifying by PCR. Compared with other methods in use, this is a simple and flexible one-step procedure for the preparation of labelled DNA of any sequence. An improvement in the synthesis of 5-hydroxy-seco-CBI-TMI is reported.

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