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布氏锥虫线粒体拓扑异构酶II的一项新功能是维持动质体DNA网络拓扑结构。

A new function of Trypanosoma brucei mitochondrial topoisomerase II is to maintain kinetoplast DNA network topology.

作者信息

Lindsay Megan E, Gluenz Eva, Gull Keith, Englund Paul T

机构信息

Department of Biological Chemistry, Johns Hopkins Medical School, Baltimore, MD, USA.

出版信息

Mol Microbiol. 2008 Dec;70(6):1465-76. doi: 10.1111/j.1365-2958.2008.06493.x. Epub 2008 Oct 22.

DOI:10.1111/j.1365-2958.2008.06493.x
PMID:19019151
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2993328/
Abstract

The mitochondrial genome of Trypanosoma brucei, called kinetoplast DNA, is a network of topologically interlocked DNA rings including several thousand minicircles and a few dozen maxicircles. Kinetoplast DNA synthesis involves release of minicircles from the network, replication of the free minicircles and reattachment of the progeny. Here we report a new function of the mitochondrial topoisomerase II (TbTOP2mt). Although traditionally thought to reattach minicircle progeny to the network, here we show that it also mends holes in the network created by minicircle release. Network holes are not observed in wild-type cells, implying that this mending reaction is normally efficient. However, RNAi of TbTOP2mt causes holes to persist and enlarge, leading to network fragmentation. Remarkably, these network fragments remain associated within the mitochondrion, and many appear to be appropriately packed at the local level, even as the overall kinetoplast organization is dramatically altered. The deficiency in mending holes is temporally the earliest observable defect in the complex TbTOP2mt RNAi phenotype.

摘要

布氏锥虫的线粒体基因组称为动质体DNA,是一个由拓扑结构互锁的DNA环组成的网络,包括数千个小环和几十 个大环。动质体DNA合成涉及从网络中释放小环、游离小环的复制以及子代的重新附着。在此,我们报道了线粒体拓扑异构酶II(TbTOP2mt)的一项新功能。虽然传统上认为它是将小环子代重新附着到网络上,但我们在此表明它还能修复因小环释放而在网络中产生的孔洞。在野生型细胞中未观察到网络孔洞,这意味着这种修复反应通常是有效的。然而,TbTOP2mt的RNA干扰会导致孔洞持续存在并扩大,从而导致网络碎片化。值得注意的是,这些网络片段仍在线粒体内相互关联,并且即使整体动质体结构发生了显著改变,许多片段在局部水平上似乎仍被适当地包装。修复孔洞的缺陷在时间上是复杂的TbTOP2mt RNA干扰表型中最早可观察到的缺陷。

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