Kufryk Galyna I, Vermaas Wim F J
School of Life Sciences and Center for the Study of Early Events in Photosynthesis, Arizona State University, Box 874501, Tempe, Arizona 85287-4501, USA.
J Bacteriol. 2006 Feb;188(4):1286-94. doi: 10.1128/JB.188.4.1286-1294.2006.
A Synechocystis sp. strain PCC 6803 mutant lacking CtaI, a main subunit of cytochrome c oxidase, is not capable of growing at light intensities below 5 micromol photons m(-2) s(-1), presumably due to an overreduced plastoquinone pool in the thylakoid membrane. Upon selection for growth at light intensities below 5 micromol photons m(-2) s(-1), a secondary mutant was generated that retained the CtaI deletion and had fully assembled photosystem II complexes; in this secondary mutant (pseudorevertant), oxygen evolution and respiratory activities were similar to those in the wild type. Functional complementation of the original CtaI-less strain to low-light tolerance by transformation with restriction fragments of genomic DNA of the pseudorevertant and subsequent mapping of the pseudoreversion site showed that the point mutation led to a Ser186Cys substitution in Sll1717, a protein of as-yet-unknown function and with a predicted ATP/GTP-binding domain. This mutation caused a decrease in the plastoquinone pool reduction level of thylakoids compared to that observed for the wild type. Based on a variety of experimental evidence, the most plausible mechanism to cause this effect is an activation of plastoquinol oxidation in thylakoids by the quinol oxidase CydAB that occurs without upregulation of the corresponding gene and that may be caused by an increased CydAB activity in thylakoids, conceivably due to altered CydAB sorting between cytoplasmic and thylakoid membranes. Sll1717 appears to be unique to Synechocystis sp. strain PCC 6803 and has a close homologue encoded in the genome of this organism. The transcript level of sll1717 is low, which suggests that the corresponding protein is regulatory rather than structural.
集胞藻6803(Synechocystis sp. strain PCC 6803)缺失细胞色素c氧化酶主要亚基CtaI的突变体,在光照强度低于5微摩尔光子·米⁻²·秒⁻¹时无法生长,这可能是由于类囊体膜中质体醌库过度还原所致。在选择于光照强度低于5微摩尔光子·米⁻²·秒⁻¹下生长后,产生了一个二级突变体,该突变体保留了CtaI缺失且光系统II复合物已完全组装;在这个二级突变体(假回复体)中,放氧和呼吸活性与野生型相似。通过用假回复体的基因组DNA限制片段转化使原始无CtaI菌株对低光耐受性进行功能互补,并随后对假回复位点进行定位,结果表明该点突变导致Sll1717中Ser186突变为Cys,Sll1717是一种功能未知但具有预测的ATP/GTP结合结构域的蛋白质。与野生型相比,该突变导致类囊体中质体醌库还原水平降低。基于各种实验证据,导致这种效应最合理的机制是类囊体中的泛醌氧化酶CydAB激活了类囊体中质体醌醇的氧化,这种激活在相应基因未上调的情况下发生,可能是由于类囊体中CydAB活性增加,这可能是由于细胞质膜和类囊体膜之间CydAB分选改变所致。Sll1717似乎是集胞藻6803特有的,并且在该生物体的基因组中编码有一个密切的同源物。sll1717的转录水平较低,这表明相应的蛋白质是调节性的而非结构性的。