Graduate School of Life Sciences , Ritsumeikan University , Kusatsu , Shiga 525-8577 , Japan.
J Org Chem. 2018 Apr 20;83(8):4355-4364. doi: 10.1021/acs.joc.7b03212. Epub 2018 Apr 5.
Chlorosomes are one of the elegant light-harvesting antenna systems in anoxygenic photosynthetic bacteria, whose core is constructed from J-type self-aggregation of bacteriochlorophyll- c, bacteriochlorophyll- d, bacteriochlorophyll- e, and bacteriochlorophyll- f molecules without the influence of polypeptides. Chlorosomal supramolecular models were built up using synthetic porphyrin-type bacteriochlorophyll- d analogues with a methoxycarbonylethenyl, formyl, vinyl, or ethyl group at the 8-position. Their chlorosomal self-aggregates in an aqueous micelle solution showed relatively intense absorption bands around 500-600 nm where antennas of natural oxygenic phototrophs, as well as green sulfur bacteria possessing bacteriochlorophylls- c/ d, absorb light less efficiently; this observation is called the "green gap". Furthermore, the functional chlorosomal models were constructed by simple addition of a small amount of an energy acceptor model bearing a bacteriochlorin moiety to the pigment self-assemblies in an aqueous micelle. The resulting excited energy donor-acceptor supramolecules played the roles of chlorosomal light-harvesting and energy-transfer antenna systems and were efficient at light absorption in the "green gap" region.
类囊体是厌氧光合作用细菌中一种优雅的光捕获天线系统,其核心由 J 型自组装的细菌叶绿素 c、d、e 和 f 分子构成,不受多肽的影响。使用在 8 位具有甲氧基羰基亚乙烯基、甲酰基、乙烯基或乙基的合成卟啉型细菌叶绿素 d 类似物构建了类囊体超分子模型。它们在水胶束溶液中的类囊体自组装体在 500-600nm 左右显示出相对较强的吸收带,天然好氧光养生物以及具有细菌叶绿素 c/d 的绿硫细菌在该区域的光吸收效率较低;这种现象被称为“绿隙”。此外,通过在水胶束中的色素自组装体中简单添加少量带有细菌卟啉部分的能量受体模型,构建了功能性类囊体模型。所得的激发能给体-受体超分子充当了类囊体光捕获和能量转移天线系统的角色,并在“绿隙”区域有效地吸收光。
