新生霉素对人成纤维细胞DNA中紫外线和甲磺酸甲酯诱导损伤修复的抑制作用研究
Studies on the inhibition of repair of ultraviolet- and methyl methanesulfonate-induced damage in the DNA of human fibroblasts by novobiocin.
作者信息
Snyder R D, Van Houten B, Regan J D
出版信息
Nucleic Acids Res. 1982 Oct 11;10(19):6207-19. doi: 10.1093/nar/10.19.6207.
Abstract
The antibiotic novobiocin is shown to alter the sedimentation properties of human cellular DNA in alkaline sucrose. This alteration is at least partially due to increased DNA-protein binding in the cell in the presence of novobiocin. Pyrimidine dimer analysis and repair replication studies support previous reports that novobiocin inhibits repair of UV damage in human cells but we find this block to be shortlived. It is also shown that novobiocin is ineffective at blocking "long-patch" repair induced by methyl methanesulfonate as measured both by CsCl density centrifugation and the ara-C inhibition technique. However, the accumulation of breaks in MMS-treated cellular DNA in the presence of novobiocin suggests that some "short-patch" alkylation repair may be inhibited by the antibiotic. These findings are discussed in light of the proposal that novobiocin may inhibit a DNA gyrase-like activity in human as in bacterial cells.
摘要
抗生素新生霉素被证明能改变人细胞DNA在碱性蔗糖中的沉降特性。这种改变至少部分是由于在新生霉素存在的情况下细胞内DNA - 蛋白质结合增加所致。嘧啶二聚体分析和修复复制研究支持了先前的报道,即新生霉素抑制人细胞中紫外线损伤的修复,但我们发现这种阻断是短暂的。还表明,通过氯化铯密度离心和阿糖胞苷抑制技术测量,新生霉素在阻断甲磺酸甲酯诱导的“长片段”修复方面无效。然而,在新生霉素存在的情况下,经甲磺酸甲酯处理的细胞DNA中断裂的积累表明,这种抗生素可能会抑制一些“短片段”烷基化修复。根据新生霉素可能像在细菌细胞中一样抑制人细胞中类似DNA促旋酶活性的提议,对这些发现进行了讨论。
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