Self-aggregation of 13²,13²-disubstituted bacteriochlorophyll-d analog.

IF 2.7 3区化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Photochemical & Photobiological Sciences Pub Date : 2024-11-27 DOI:10.1007/s43630-024-00662-y

Yamato Hashimoto, Toyoho Takeda, Shin Ogasawara, Hitoshi Tamiaki

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Abstract

Zinc methyl 13²,13²-disubstituted 3-hydroxymethyl-pyropheophorbides-a were prepared as models of bacteriochlorophyll-d, which self-aggregated in the main light-harvesting antenna (chlorosome) of photosynthetic green bacteria. The synthetic zinc 3¹-hydroxy-13¹-oxo-chlorins possessing methyl and methoxycarbonyl groups at the 13²-position could not self-aggregate in an aqueous Triton X-100 solution. However, another model compound bearing an ethane-1,2-diyl group at the 13²-position did self-aggregate under the same conditions to give red-shifted and broadened Qy and Soret absorption bands. The spiro-cyclopropane condensation slightly suppressed the chlorosome-like self-aggregation due to an increase in the steric hindrance around the 13-carbonyl group. The red-shifted and broadened values of these bands by the self-aggregation were dependent on the 13²-substituents. The 13²-substitution substantially controlled the aqueous J-aggregation.

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132,132-二取代细菌叶绿素-d 类似物的自聚集。

制备了甲基 132、132-二取代的 3-羟甲基-pyropheophorbides-a 锌作为细菌叶绿素-d 的模型，它能在光合作用绿色细菌的主要采光天线（叶绿体）中自我聚集。合成的 31-hydroxy-131-oxo-chlorins 锌在 132 位上具有甲基和甲氧基羰基，在 Triton X-100 水溶液中不能自聚。然而，另一种在 132 位上带有乙烷-1,2-二基的模型化合物却能在相同条件下发生自聚集，产生红移和拓宽的 Qy 和 Soret 吸收带。由于 13-羰基周围的立体阻碍增加，螺环丙烷缩合略微抑制了类似氯原子的自聚集。这些自聚集带的红移和拓宽值取决于 132 取代基。132 取代基在很大程度上控制了水性 J-聚集。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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