光合作用中心

但是也显示出，植物的水分利用效率，光合作用中心色素相对含量出现降低的趋势。

However , water use efficiency and photosynthetic pigment content were decreased .

人工光合作用反应中心的研究进展

Progress in research on artificial photosynthetic reaction centre

这一发现可视作为对我们所提出的解释光合作用反应中心的电子转移方向性的设想提供一个间接实验支持。

This finding seems to be an indirect experimental evidence supporting our hypothesis proposed for understanding the directionality of electron transfer within reaction center of photosynthesis .

与以往对光抑制的定义不同，现在认为光抑制既包括光对光合作用反应中心的损伤，也包括植物为避免光破坏而形成的生理生化保护机制。

Different from former definition on photoinhibition , it was considered presently that the photoinhibition not only involves the light stress to reaction centers of photosynthesis , but also involes some physiological and biochemical protective mechanisms formed by plants in order to avoid the light damage .

该模型进一步缩小了人工模型体系与天然光合作用释氧中心（OEC）四核锰簇的差异。

These improvements narrow the disparity between the new model and ( Mn ) _4 cluster ( oxygen-evolving center in nature ) .

目前，人们合成的光合作用模型化合物已经具备了自然界光合作用反应中心的某些性质。

They possess part of the properties of natural photosynthesis centers .