关于肌动蛋白同源物ParM的动态不稳定性。

Concerning the dynamic instability of actin homolog ParM.

作者信息

Popp David, Yamamoto Akihiro, Iwasa Mitsusada, Narita Akihiro, Maeda Kayo, Maéda Yuichiro

机构信息

ERATO Actin Filament Dynamics Project, Japan Science and Technology Corporation, c/o RIKEN Harima Institute at Spring 8, Kouto, Sayo, Hyogo 679-5148, Japan.

出版信息

Biochem Biophys Res Commun. 2007 Feb 2;353(1):109-14. doi: 10.1016/j.bbrc.2006.11.130. Epub 2006 Dec 6.

DOI:10.1016/j.bbrc.2006.11.130

PMID:17173862

Abstract

Using in vitro TIRF- and electron-microscopy, we reinvestigated the dynamics of native ParM, a prokaryotic DNA segregation protein and actin homolog. In contrast to a previous study, which used a cysteine ParM mutant, we find that the polymerization process of wild type ATP-ParM filaments consists of a polymerization phase and a subsequent steady state phase, which is dynamically unstable, like that of microtubules. We find that the apparent bidirectional polymerization of ParM, is not due to the intrinsic nature of this filament, but results from ParM forming randomly oriented bundles in the presence of crowding agents. Our results imply, that in the bacterium, ParM filaments spontaneously form bipolar bundles. Due to their intrinsic dynamic instability, ParM bundles can efficiently "search" the cytoplasmic lumen for DNA, bind it equally well at the bipolar ends and segregate it approximately symmetrically, by the insertion of ParM subunits at either end.

摘要

利用体外全内反射荧光显微镜（TIRF）和电子显微镜，我们重新研究了原核生物DNA分离蛋白兼肌动蛋白同源物天然ParM的动力学。与之前使用半胱氨酸ParM突变体的研究不同，我们发现野生型ATP-ParM丝的聚合过程包括一个聚合阶段和随后的稳态阶段，该稳态阶段动态不稳定，类似于微管。我们发现，ParM明显的双向聚合并非由于该丝的内在性质，而是由于ParM在拥挤剂存在下形成随机取向的束。我们的结果表明，在细菌中，ParM丝会自发形成双极束。由于其内在的动态不稳定性，ParM束能够有效地在细胞质腔中“搜索”DNA，在双极末端同等良好地结合DNA，并通过在任一端插入ParM亚基将其大致对称地分离。

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关于肌动蛋白同源物ParM的动态不稳定性。

Concerning the dynamic instability of actin homolog ParM.

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