基质类囊体膜中光系统 II 的特性。

Characterization of photosystem II in stroma thylakoid membranes.

机构信息

Department of Plant Biochemistry, University of Lund, P.O. Box 124, S-221 00, LUND, Sweden.

出版信息

Photosynth Res. 1990 Aug;25(2):107-17. doi: 10.1007/BF00035459.

PMID:24420277

Abstract

The functional state of the PS II population localized in the stroma exposed non-appressed thylakoid region was investigated by direct analysis of the PS II content of isolated stroma thylakoid vesicles. This PS II population, possessing an antenna size typical for PS IIβ, was found to have a fully functional oxygen evolving capacity in the presence of an added quinone electron acceptor such as phenyl-p-benzoquinone. The sensitivity to DCMU for this PS II population was the same as for PS II in control thylakoids. However, under more physiological conditions, in the absence of an added quinone acceptor, no oxygen was evolved from stroma thylakoid vesicles and their PS II centers were found to be incapable to pass electrons to PS I and to yield NADPH. By comparison of the effect of a variety of added quinone acceptors with different midpoint potentials, it is concluded that the inability of PS II in the stroma thylakoid membranes to contribute to NADPH formation probably is due to that QA of this population is not able to reduce PQ, although it can reduce some artificial acceptors like phenyl-p-benzoquinone. These data give further support to the notion of a discrete PS II population in the non-appressed stroma thylakoid region, PS IIβ, having a higher midpoint potential of QA than the PS II population in the appressed thylakoid region, PS IIα. The physiological significance of a PS II population that does not produce any NADPH is discussed.

摘要

通过直接分析分离的基质类囊体囊泡中的 PS II 含量，研究了定位于基质非压缩类囊体区域的 PS II 群体的功能状态。该 PS II 群体具有典型的 PS IIβ 天线大小，在添加醌电子受体（如苯-p-对苯醌）的情况下，具有完全的氧释放能力。该 PS II 群体对 DCMU 的敏感性与对照类囊体中的 PS II 相同。然而，在更生理的条件下，在没有添加醌受体的情况下，基质类囊体囊泡中没有氧气产生，并且发现它们的 PS II 中心无法将电子传递给 PS I 并产生 NADPH。通过比较各种具有不同中点电位的添加醌受体的影响，可以得出结论，基质类囊体膜中 PS II 不能促进 NADPH 形成的原因可能是该群体的 QA 不能还原 PQ，尽管它可以还原一些人工受体，如苯-p-对苯醌。这些数据进一步支持了在非压缩基质类囊体区域存在离散 PS II 群体 PS IIβ 的观点，其 QA 的中点电位高于压缩类囊体区域的 PS II 群体 PS IIα。讨论了不产生任何 NADPH 的 PS II 群体的生理意义。

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基质类囊体膜中光系统 II 的特性。

Characterization of photosystem II in stroma thylakoid membranes.

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