丝状异囊形成蓝藻 Anabaena sp. PCC 7120 中 mRNA 的定位和类木质蛋白的生物生成。

IF 2.7 3区 生物学 Q3 MICROBIOLOGY
Journal of Bacteriology Pub Date : 2024-10-24 Epub Date: 2024-09-27 DOI:10.1128/jb.00328-24
Kexin Wang, Moontaha Mahbub, Giulia Mastroianni, Ana Valladares, Conrad W Mullineaux
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引用次数: 0

摘要

杂囊形成蓝藻(如 Anabaena (Nostoc) sp. PCC 7120)在杂囊分化过程中表现出大量的类木质膜重塑。在此,我们利用 mRNA 荧光原位杂交(FISH)检测特定 mRNA 的位置,研究了 Anabaena 无性细胞和发育中异囊中的类囊体膜蛋白的翻译位置。我们探测了编码反应中心核心成分以及异囊特异性末端氧化酶Cox2和Cox3的mRNA。与单细胞蓝藻一样,编码膜整合型类囊体蛋白的mRNA集中在类囊体膜系统内侧的斑块中,与中央细胞质相邻。这些斑块标志着这些蛋白质翻译和膜插入的假定位置。成熟异囊中的氧化酶活性集中在靠近细胞两极的专门的类木质膜 "蜂巢 "区域。然而,cox2 和 cox3 mRNA 仍然均匀地分布在类囊体的内面,这意味着氧化酶蛋白在翻译后会广泛迁移,以到达蜂巢膜中的目的地。RNA 结合蛋白 RbpG 是单细胞蓝藻 Synechocystis sp. PCC 6803 中 Rbp3 最接近的 Anabaena 同源物。rbpG缺失突变体显示出细胞中光合 mRNA 和光合复合物水平的下降,同时还显示出类木质膜组织的紊乱和光系统 II 修复循环效率的降低。这表明,RbpG 对光合 mRNA 的伴侣作用对于正确协调类囊体蛋白质的翻译和组装非常重要。人们对蛋白质靶向到类囊体以及类囊体蛋白质生物发生的空间组织仍然知之甚少。一些丝状蓝藻会产生异囊,这是一种特化的固氮细胞,其中的类囊体膜经历了广泛的重塑。在这里,我们探测了 mRNA 的位置,以揭示形成异囊蓝藻的类囊体翻译位点。我们发现了一种对正确协调类囊体蛋白质翻译和组装非常重要的 RNA 结合蛋白,并证明了 mRNA 荧光原位杂交(FISH)作为一种探测多细胞蓝藻细胞特异性基因表达的方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
mRNA localization and thylakoid protein biogenesis in the filamentous heterocyst-forming cyanobacterium Anabaena sp. PCC 7120.

Heterocyst-forming cyanobacteria such as Anabaena (Nostoc) sp. PCC 7120 exhibit extensive remodeling of their thylakoid membranes during heterocyst differentiation. Here we investigate the sites of translation of thylakoid membrane proteins in Anabaena vegetative cells and developing heterocysts, using mRNA fluorescent in situ hybridization (FISH) to detect the location of specific mRNA species. We probed mRNAs encoding reaction center core components and the heterocyst-specific terminal oxidases Cox2 and Cox3. As in unicellular cyanobacteria, the mRNAs encoding membrane-integral thylakoid proteins are concentrated in patches at the inner face of the thylakoid membrane system, adjacent to the central cytoplasm. These patches mark the putative sites of translation and membrane insertion of these proteins. Oxidase activity in mature heterocysts is concentrated in the specialized "honeycomb" regions of the thylakoid membranes close to the cell poles. However, cox2 and cox3 mRNAs remain evenly distributed over the inner face of the thylakoids, implying that oxidase proteins migrate extensively after translation to reach their destination in the honeycomb membranes. The RNA-binding protein RbpG is the closest Anabaena homolog of Rbp3 in the unicellular cyanobacterium Synechocystis sp. PCC 6803, which we previously showed to be crucial for the correct location of photosynthetic mRNAs. An rbpG null mutant shows decreased cellular levels of photosynthetic mRNAs and photosynthetic complexes, coupled with perturbations to thylakoid membrane organization and lower efficiency of the Photosystem II repair cycle. This suggests that the chaperoning of photosynthetic mRNAs by RbpG is important for the correct coordination of thylakoid protein translation and assembly.IMPORTANCECyanobacteria have a complex thylakoid membrane system which is the site of the photosynthetic light reactions as well as most of the respiratory activity in the cell. Protein targeting to the thylakoids and the spatial organization of thylakoid protein biogenesis remain poorly understood. Further complexity is found in some filamentous cyanobacteria that produce heterocysts, specialized nitrogen-fixing cells in which the thylakoid membranes undergo extensive remodeling. Here we probe mRNA locations to reveal thylakoid translation sites in a heterocyst-forming cyanobacterium. We identify an RNA-binding protein important for the correct co-ordination of thylakoid protein translation and assembly, and we demonstrate the effectiveness of mRNA fluorescent in situ hybridization (FISH) as a way to probe cell-specific gene expression in multicellular cyanobacteria.

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来源期刊
Journal of Bacteriology
Journal of Bacteriology 生物-微生物学
CiteScore
6.10
自引率
9.40%
发文量
324
审稿时长
1.3 months
期刊介绍: The Journal of Bacteriology (JB) publishes research articles that probe fundamental processes in bacteria, archaea and their viruses, and the molecular mechanisms by which they interact with each other and with their hosts and their environments.
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