这是细菌核糖体的另一项工作

IF 4.1 3区 生物学 Q2 CELL BIOLOGY Microbial Cell Pub Date : 2019-10-17 DOI:10.15698/mic2019.11.698
Andrea Origi, Ana Natriashivili, Lara Knüpffer, C. Fehrenbach, Kärt Denks, Rosella Asti, H. Koch
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引用次数: 3

摘要

核糖体是一种复杂的细胞机器,由RNA和蛋白质组成,它将mrna编码的遗传信息翻译成蛋白质,从而在基因表达的中心起作用。尽管如此,核糖体不仅解码遗传信息,它还协调许多与核糖体相关的过程,如蛋白质折叠和靶向。核糖体蛋白uL23对于这种协调至关重要,它位于核糖体隧道出口,在那里它作为靶向因子、伴侣蛋白和修饰酶的结合平台。这包括信号识别颗粒(SRP),它有助于前核和真核生物中的共翻译蛋白靶向,伴侣蛋白触发因子和蛋氨酸氨基肽酶,它可以去除许多细菌蛋白质中的起始蛋氨酸。最近的一份报告揭示了uL23与细菌中另一个重要的参与者,atp酶SecA的复杂相互作用,该酶以其在细菌SecYEG转座子的翻译后蛋白质分泌过程中的作用而闻名。
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Yet another job for the bacterial ribosome
The ribosome is a sophisticated cellular machine, composed of RNA and protein, which translates the mRNA-encoded genetic information into protein and thus acts at the center of gene expression. Still, the ribosome not only decodes the genetic information, it also coordinates many ribosome-associated processes like protein folding and targeting. The ribosomal protein uL23 is crucial for this coordination and is located at the ribosomal tunnel exit where it serves as binding platform for targeting factors, chaperones and modifying enzymes. This includes the signal recognition particle (SRP), which facilitates co-translational protein targeting in pro- and eukaryotes, the chaperone Trigger Factor and methionine aminopeptidase, which removes the start methionine in many bacterial proteins. A recent report revealed the intricate interaction of uL23 with yet another essential player in bacteria, the ATPase SecA, which is best known for its role during post-translational secretion of proteins across the bacterial SecYEG translocon.
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来源期刊
Microbial Cell
Microbial Cell Multiple-
CiteScore
6.40
自引率
0.00%
发文量
32
审稿时长
12 weeks
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