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鉴定EloR(Spr1851)为肺炎链球菌细胞伸长的调节因子。

Identification of EloR (Spr1851) as a regulator of cell elongation in Streptococcus pneumoniae.

作者信息

Stamsås Gro Anita, Straume Daniel, Ruud Winther Anja, Kjos Morten, Frantzen Cyril Alexander, Håvarstein Leiv Sigve

机构信息

Faculty of Chemistry, Biotechnology and Food Science, Norwegian University of Life Sciences, NO-1432, Ås, Norway.

出版信息

Mol Microbiol. 2017 Sep;105(6):954-967. doi: 10.1111/mmi.13748. Epub 2017 Jul 23.

DOI:10.1111/mmi.13748
PMID:28710862
Abstract

In a screen for mutations suppressing the lethal loss of PBP2b in Streptococcus pneumoniae we identified Spr1851 (named EloR), a cytoplasmic protein of unknown function whose inactivation removed the requirement for PBP2b as well as RodA. It follows from this that EloR and the two elongasome proteins must be part of the same functional network. This network also includes StkP, as this serine/threonine kinase phosphorylates EloR on threonine 89 (T89). We found that ΔeloR cells, and cells expressing the phosphoablative form of EloR (EloR ), are significantly shorter than wild-type cells. Furthermore, the phosphomimetic form of EloR (EloR ) is not tolerated unless the cell in addition acquires a truncated MreC or non-functional RodZ protein. By itself, truncation of MreC as well as inactivation of RodZ gives rise to less elongated cells, demonstrating that the stress exerted by the phosphomimetic form of EloR is relieved by suppressor mutations that reduce or abolish the activity of the elongasome. Of note, it was also found that loss of elongasome activity caused by truncation of MreC elicits increased StkP-mediated phosphorylation of EloR. Together, the results support a model in which phosphorylation of EloR stimulates cell elongation, while dephosphorylation has an inhibitory effect.

摘要

在一项针对抑制肺炎链球菌中PBP2b致死性缺失的突变筛选中,我们鉴定出Spr1851(命名为EloR),这是一种功能未知的胞质蛋白,其失活消除了对PBP2b以及RodA的需求。由此可知,EloR和两种伸长体蛋白必定是同一功能网络的一部分。该网络还包括StkP,因为这种丝氨酸/苏氨酸激酶会使EloR的苏氨酸89(T89)发生磷酸化。我们发现,ΔeloR细胞以及表达EloR磷酸化失活形式(EloR )的细胞明显比野生型细胞短。此外,除非细胞另外获得截短的MreC或无功能的RodZ蛋白,否则EloR的磷酸化模拟形式(EloR )是无法耐受的。单独而言,MreC的截短以及RodZ的失活会导致细胞伸长减少,这表明EloR的磷酸化模拟形式所施加的压力可通过减少或消除伸长体活性的抑制突变得到缓解。值得注意的是,还发现由MreC截短导致的伸长体活性丧失会引发StkP介导的EloR磷酸化增加。总之,这些结果支持了一种模型,即EloR的磷酸化刺激细胞伸长,而去磷酸化则具有抑制作用。

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