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核仁 AAA-NTP 酶是寄生虫分裂所必需的。

A nucleolar AAA-NTPase is required for parasite division.

机构信息

Departments of Molecular Medicine & Global Health, University of South Florida, Tampa, FL, 33612, USA.

出版信息

Mol Microbiol. 2013 Oct;90(2):338-55. doi: 10.1111/mmi.12367. Epub 2013 Sep 11.

DOI:10.1111/mmi.12367
PMID:23964771
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3902653/
Abstract

Apicomplexa division involves several distinct phases shared with other eukaryote cell cycles including a gap period (G1) prior to chromosome synthesis, although how progression through the parasite cell cycle is controlled is not understood. Here we describe a cell cycle mutant that reversibly arrests in the G1 phase. The defect in this mutant was mapped by genetic complementation to a gene encoding a novel AAA-ATPase/CDC48 family member called TgNoAP1. TgNoAP1 is tightly regulated and expressed in the nucleolus during the G1/S phases. A tyrosine to a cysteine change upstream of the second AAA+ domain in the temperature sensitive TgNoAP1 allele leads to conditional protein instability, which is responsible for rapid cell cycle arrest and a primary defect in 28S rRNA processing as confirmed by knock-in of the mutation back into the parent genome. The interaction of TgNoAP1 with factors of the snoRNP and R2TP complexes indicates this protein has a role in pre-rRNA processing. This is a novel role for a cdc48-related chaperone protein and indicates that TgNoAP1 may be part of a dynamic mechanism that senses the health of the parasite protein machinery at the initial steps of ribosome biogenesis and conveys that information to the parasite cell cycle checkpoint controls.

摘要

Apicomplexa 分裂涉及与其他真核细胞周期共享的几个不同阶段,包括染色体合成前的间隙期(G1),尽管寄生虫细胞周期如何进展受到控制尚不清楚。在这里,我们描述了一种可在 G1 期可逆性停滞的细胞周期突变体。该突变体的缺陷通过遗传互补定位到一个编码新型 AAA-ATPase/CDC48 家族成员的基因,称为 TgNoAP1。TgNoAP1 在 G1/S 期在核仁中受到严格调控和表达。温度敏感 TgNoAP1 等位基因中第二个 AAA+结构域上游的酪氨酸到半胱氨酸的变化导致条件性蛋白质不稳定,这是导致快速细胞周期停滞和 28S rRNA 加工主要缺陷的原因,这一点通过将突变敲入亲本基因组得到了证实。TgNoAP1 与 snoRNP 和 R2TP 复合物的因子相互作用表明该蛋白在 pre-rRNA 加工中具有作用。这是一种与 cdc48 相关伴侣蛋白的新作用,表明 TgNoAP1 可能是一种动态机制的一部分,该机制在核糖体生物发生的初始步骤中感知寄生虫蛋白质机器的健康状况,并将该信息传递给寄生虫细胞周期检查点控制。

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