Wasielewski M R, Studier M H, Katz J J
Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439.
Proc Natl Acad Sci U S A. 1976 Dec;73(12):4282-6. doi: 10.1073/pnas.73.12.4282.
The synthesis of a covalent dimer of chlorophyll a which possesses properties strikingly similar to those exhibited by P700 special pair chlorophyll in vivo is described. The covalent dimer is characterized by several spectroscopic techniques. Hydrogen bonding nucleophiles, such as water, primary alcohols, and primary thiols, are effective in generating a species from solutions of 10 muM covalent dimer in hydrophobic solvents which absorbs light near 700 nm. Formation of this in vitro special pair is a rapid, spontaneous process at room temperature. The range of nucleophiles which promote this process suggests that amino acid residues may function in a similar fashion to form P700 in chlorophyll-protein complexes. The photochemical properties of this in vitro special pair mimic those of in vivo P700 species. The 697 nm absorption of the in vitro special pair undergoes photo-bleaching rapidly in the presence of iodine that results in the production of a cation radical which exhibits an electron spin resonance signal similar to that of oxidized P700 observed in Chlorella vulgaris.
本文描述了一种叶绿素a共价二聚体的合成,该二聚体具有与体内P700特殊对叶绿素极为相似的性质。通过多种光谱技术对该共价二聚体进行了表征。氢键亲核试剂,如水、伯醇和伯硫醇,能有效地从疏水性溶剂中10 μM共价二聚体的溶液中生成一种在700 nm附近吸收光的物质。在室温下,这种体外特殊对的形成是一个快速、自发的过程。促进这一过程的亲核试剂范围表明,氨基酸残基可能以类似的方式在叶绿素-蛋白质复合物中形成P700。这种体外特殊对的光化学性质模拟了体内P700物质的光化学性质。在碘存在下,体外特殊对在697 nm处的吸收迅速发生光漂白,产生一个阳离子自由基,其电子自旋共振信号与在普通小球藻中观察到的氧化P700的信号相似。