集胞藻PCC6803中与PxcA依赖性质子外排有关的光合电子传递：pxcA失活对CO2、HCO3-和NO3-吸收的影响

Photosynthetic electron transport involved in PxcA-dependent proton extrusion in Synechocystis sp. Strain PCC6803: effect of pxcA inactivation on CO2, HCO3-, and NO3- uptake.

作者信息

Sonoda M, Katoh H, Vermaas W, Schmetterer G, Ogawa T

机构信息

Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya 464-01, Japan.

出版信息

J Bacteriol. 1998 Aug;180(15):3799-803. doi: 10.1128/JB.180.15.3799-3803.1998.

DOI:10.1128/JB.180.15.3799-3803.1998

PMID:9683474

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC107361/

Abstract

The product of pxcA (formerly known as cotA) is involved in light-induced Na+-dependent proton extrusion. In the presence of 2, 5-dimethyl-p-benzoquinone, net proton extrusion by Synechocystis sp. strain PCC6803 ceased after 1 min of illumination and a postillumination influx of protons was observed, suggesting that the PxcA-dependent, light-dependent proton extrusion equilibrates with a light-independent influx of protons. A photosystem I (PS I) deletion mutant extruded a large number of protons in the light. Thus, PS II-dependent electron transfer and proton translocation are major factors in light-driven proton extrusion, presumably mediated by ATP synthesis. Inhibition of CO2 fixation by glyceraldehyde in a cytochrome c oxidase (COX) deletion mutant strongly inhibited the proton extrusion. Leakage of PS II-generated electrons to oxygen via COX appears to be required for proton extrusion when CO2 fixation is inhibited. At pH 8.0, NO3- uptake activity was very low in the pxcA mutant at low [Na+] (approximately 100 microM). At pH 6.5, the pxcA strain did not take up CO2 or NO3- at low [Na+] and showed very low CO2 uptake activity even at 15 mM Na+. A possible role of PxcA-dependent proton exchange in charge and pH homeostasis during uptake of CO2, HCO3-, and NO3- is discussed.

摘要

pxcA（以前称为cotA）的产物参与光诱导的依赖于Na⁺的质子外排。在2,5-二甲基对苯醌存在的情况下，集胞藻属PCC6803菌株的净质子外排在光照1分钟后停止，并观察到光照后质子内流，这表明依赖于PxcA的光依赖质子外排与不依赖光的质子内流达到平衡。光系统I（PS I）缺失突变体在光照下会排出大量质子。因此，依赖于PS II的电子传递和质子转运是光驱动质子外排的主要因素，推测是由ATP合成介导的。甘油醛对细胞色素c氧化酶（COX）缺失突变体中CO₂固定的抑制强烈抑制了质子外排。当CO₂固定受到抑制时，PS II产生的电子通过COX泄漏到氧气似乎是质子外排所必需的。在pH 8.0时，pxcA突变体在低[Na⁺]（约为μM）下的NO₃⁻吸收活性非常低。在pH 6.5时，pxcA菌株在低[Na⁺]下不吸收CO₂或NO₃⁻，即使在15 mM Na⁺时其CO₂吸收活性也非常低。本文讨论了PxcA依赖的质子交换在CO₂、HCO₃⁻和NO₃⁻吸收过程中电荷和pH稳态中的可能作用。

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Photosynthetic electron transport involved in PxcA-dependent proton extrusion in Synechocystis sp. Strain PCC6803: effect of pxcA inactivation on CO2, HCO3-, and NO3- uptake.集胞藻PCC6803中与PxcA依赖性质子外排有关的光合电子传递：pxcA失活对CO2、HCO3-和NO3-吸收的影响

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