Klimov V V, Dolan E, Ke B
Biofizika. 1981 Sep-Oct;26(5):802-8.
Photoreduction of the intermediary electron acceptor, pheophytin (Ph), in photosystem-2 (PS-2) reaction centers of spinach chloroplasts or subchloroplast particles (TSF-II and TSF-IIa) at 220 K and Eh approximately -450 mV produces a narrow ESR signal of Ph. (g = 2.0033; delta H approximately 13 G) and a "doublet" centered at g = 2.00 with a splitting of 52 G at 7 K. The doublet (but not the narrow signal) is eliminated after extraction of lyophylized TSF-II with hexane, containing 0.1-0.2% methanol, or after extraction of Fe with LiClO4 and o-phenantroline, and the signal is restored by reconstitution with plastoquinone-A (PQ) or Fe++, respectively. The Fe removal results also in the development of a photoinduced ESR signal of PQ. (g approximately 2.0044; delta H approximately 9.2 G). The conclusion is made that the primary electron acceptor, Q, is in fact a complex PQ-Fe++ and that the exchange interaction of Ph. with PQ. -Fe++ is responsible for the ESR doublet. Photoreduction of Ph in TSF-IIa is accompanied by the 3-fold decrease in the formation of carotenoid triplet state (measured by the characteristic flash-induced absorbance changes) which is suggested to be a result of charge recombination in the pair [P680+ .PH.].
在220K和Eh约为-450mV的条件下,对菠菜叶绿体或亚叶绿体颗粒(TSF-II和TSF-IIa)的光系统2(PS-2)反应中心中的中间电子受体脱镁叶绿素(Ph)进行光还原,会产生一个窄的Ph的ESR信号(g = 2.0033;ΔH约为13G)以及在7K时以g = 2.00为中心、分裂为52G的“双峰”。用含0.1 - 0.2%甲醇的己烷萃取冻干的TSF-II后,或用高氯酸锂和邻菲罗啉萃取铁后,双峰(但窄信号不会)消失,并且分别用质体醌-A(PQ)或Fe²⁺重构后信号恢复。去除铁的结果还导致了PQ的光诱导ESR信号的出现(g约为2.0044;ΔH约为9.2G)。得出的结论是,初级电子受体Q实际上是一个PQ-Fe²⁺复合物,并且Ph与PQ-Fe²⁺的交换相互作用是ESR双峰的原因。TSF-IIa中Ph的光还原伴随着类胡萝卜素三重态形成的3倍下降(通过特征性的闪光诱导吸光度变化测量),这被认为是[P680⁺·Ph⁻]对中电荷复合的结果。
