Cyclopropane-ring formation in the acyl groups of chlorosome glycolipids is crucial for acid resistance of green bacterial antenna systems

Green photosynthetic bacteria have unique light-harvesting antenna systems called chlorosomes. Chlorobaculum tepidum, a model organism of the bacteria, biosynthesized monogalactosyl- and rhamnosylgalactosyldiacylglycerides possessing a methylene-bridged palmitoleyl group characterized by a cis-subst...

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Bibliographic Details
Published in:Bioorganic & medicinal chemistry 2013-07, Vol.21 (13), p.3689-3694
Main Authors: Mizoguchi, Tadashi, Tsukatani, Yusuke, Harada, Jiro, Takasaki, Shin, Yoshitomi, Taichi, Tamiaki, Hitoshi
Format: Article
Language:English
Subjects:
acid tolerance
Acylation
Bacterial Proteins - chemistry
Bacterial Proteins - metabolism
Bacteriochlorophyll
Bacteriochlorophylls - chemistry
Bacteriochlorophylls - metabolism
chemistry
Chlorobaculum tepidum
Chlorobi - chemistry
Chlorobi - cytology
Chlorobi - metabolism
Chlorobium tepidum
Chlorosome
Cyclopropane fatty acid
Cyclopropanes - chemistry
Cyclopropanes - metabolism
Fatty Acids - chemistry
Fatty Acids - metabolism
Glycolipid
glycolipids
Glycolipids - chemistry
Glycolipids - metabolism
photosynthetic bacteria
pigments
S-adenosylmethionine
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Summary:Green photosynthetic bacteria have unique light-harvesting antenna systems called chlorosomes. Chlorobaculum tepidum, a model organism of the bacteria, biosynthesized monogalactosyl- and rhamnosylgalactosyldiacylglycerides possessing a methylene-bridged palmitoleyl group characterized by a cis-substituted cyclopropane ring as the dominant glycolipids of its chlorosome surface. The formation of the cyclopropane ring was chemically inhibited by supplementation of sinefungin, an analog of S-adenosyl-l-methionine, into the bacterial cultivation. The presence of the cyclopropane ring reinforced acid resistance of the light-harvesting chlorosomes and suppressed acidic demetalation (pheophytinization) of bacteriochlorophyll-c pigments constructing the core part of chlorosomes. The ring-formation would represent direct and post-synthetic modifications of chlorosome membrane properties and was tolerant of acidic environments.
ISSN:0968-0896
1464-3391
DOI:10.1016/j.bmc.2013.04.030