以体内叶绿素a荧光寿命为特征的光失活光系统II反应中心群体。
Populations of photoinactivated photosystem II reaction centers characterized by chlorophyll a fluorescence lifetime in vivo.
作者信息
Matsubara Shizue, Chow Wah Soon
机构信息
Photobioenergetics Group, Research School of Biological Sciences, Australian National University, G.P.O. Box 475, Canberra ACT 2601, Australia.
出版信息
Proc Natl Acad Sci U S A. 2004 Dec 28;101(52):18234-9. doi: 10.1073/pnas.0403857102. Epub 2004 Dec 15.
Abstract
Photosystem (PS) II centers, which split water into oxygen, protons, and electrons during photosynthesis, require light but are paradoxically inactivated by it. Prolonged light exposure concomitantly decreased both the functional fraction of PSII reaction centers and the integral PSII chlorophyll (Chl) a fluorescence lifetime in leaf segments of Capsicum annuum L. Acceleration of photoinactivation of PSII by a pretreatment with the inhibitors/uncoupler lincomycin, DTT, or nigericin further reduced PSII Chl a fluorescence lifetimes. A global analysis of fluorescence lifetime distributions revealed the presence of at least two distinct populations of photoinactivated PSII centers, one at 1.25 ns, and the other at 0.58 ns. Light treatment first increased the 1.25-ns component, a weak quencher, at the expense of a component at 2.22 ns corresponding to functional PSII centers. The 0.58-ns component, a strong quencher, emerged later than the 1.25-ns component. The strongly quenching PSII reaction centers could serve to avoid further damage to themselves and protect their functional neighbors by acting as strong energy sinks.
摘要
光系统(PS)II中心在光合作用过程中将水分解为氧气、质子和电子,需要光照,但自相矛盾的是会被光照灭活。长时间光照会同时降低辣椒叶片切段中PSII反应中心的功能部分以及PSII叶绿素(Chl)a荧光的整体寿命。用抑制剂/解偶联剂林可霉素、二硫苏糖醇(DTT)或尼日利亚菌素进行预处理加速PSII的光灭活,进一步缩短了PSII Chl a荧光寿命。对荧光寿命分布的整体分析表明,存在至少两个不同的光灭活PSII中心群体,一个在1.25纳秒,另一个在0.58纳秒。光照处理首先增加了1.25纳秒的成分,这是一种弱猝灭剂,代价是对应于功能性PSII中心的2.22纳秒成分减少。0.58纳秒的成分,一种强猝灭剂,比1.25纳秒的成分出现得晚。强猝灭的PSII反应中心可通过充当强大的能量阱来避免自身进一步受损,并保护其功能性相邻中心。
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