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集胞藻6803中δPsbO:δPsbU突变体和自发回复突变体的全基因组表达

Global gene expression of a delta PsbO:delta PsbU mutant and a spontaneous revertant in the cyanobacterium Synechocystis sp. strain PCC 6803.

作者信息

Summerfield Tina C, Eaton-Rye Julian J, Sherman Louis A

机构信息

Department of Biological Sciences, Purdue University, 1392 Lilly Hall of Life Sciences, West Lafayette, IN 47907, USA.

出版信息

Photosynth Res. 2007 Nov-Dec;94(2-3):265-74. doi: 10.1007/s11120-007-9237-2. Epub 2007 Nov 8.

DOI:10.1007/s11120-007-9237-2
PMID:17990072
Abstract

The photosystem II (PSII) double mutant delta PsbO:delta PsbU was unable to grow photoautotrophically at pH 7.5, but growth was restored at pH 10. We have isolated a pseudorevertant of this strain, which exhibited photoautotrophic growth at pH 7.5. PSII-specific oxygen evolution and assembled PSII centers in the pseudorevertant and the original delta PsbO:delta PsbU strains were similar at pH 7.5. Comparison of global gene expression of the two strains at pH 7.5 revealed that <4% of genes differed. In the pseudorevertant, up-regulated transcripts included stress-responsive genes, many of which were shown previously to be under the control of Hik34. Elevated transcripts included those encoding heat shock proteins (HspA, DnaK2 and HtpG), two Deg proteases (DegP and DegQ), and the orange carotenoid protein (OCP, Slr1963). Up-regulated genes encoded proteins localized to different cell compartments, including the thylakoid, plasma and outer membranes. We suggest that the cell wide up-regulation of stress response genes in the pseudorevertant may limit the impact of PSII instability that is observed in the delta PsbO:delta PsbU strain. Futhermore, the OCP has a photoprotective role mediating phycobilisome-associated nonphotochemical quenching, such that increased OCP levels in the pseudorevertant may reduce photons reaching these impaired centers. These two responses, in combination with uncharacterized stress responses, are sufficient to permit the growth of pseudorevertant at pH 7.5.

摘要

光系统II(PSII)双突变体δPsbO:δPsbU在pH 7.5时无法进行光合自养生长,但在pH 10时恢复生长。我们分离出了该菌株的一个假回复突变体,其在pH 7.5时表现出光合自养生长。在pH 7.5时,假回复突变体和原始的δPsbO:δPsbU菌株中PSII特异性放氧和组装的PSII中心相似。比较这两种菌株在pH 7.5时的全局基因表达发现,差异基因不到4%。在假回复突变体中,上调的转录本包括应激反应基因,其中许多先前已被证明受Hik34调控。上调的转录本包括编码热休克蛋白(HspA、DnaK2和HtpG)、两种Deg蛋白酶(DegP和DegQ)以及橙色类胡萝卜素蛋白(OCP,Slr1963)的转录本。上调基因编码的蛋白质定位于不同的细胞区室,包括类囊体、质膜和外膜。我们认为,假回复突变体中应激反应基因在全细胞范围内的上调可能会限制在δPsbO:δPsbU菌株中观察到的PSII不稳定性的影响。此外,OCP具有介导藻胆体相关非光化学猝灭的光保护作用,因此假回复突变体中OCP水平的增加可能会减少到达这些受损中心的光子。这两种反应,再加上未表征的应激反应,足以使假回复突变体在pH 7.5时生长。

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