Abstract
Bacteriochlorophylls (BChls) c, d, and e are the major chlorophylls in chlorosomes, which are the largest and one of the most efficient antennae produced by chlorophototrophic organisms. In the biosynthesis of these three BChls, a C-13(2)-methylcarboxyl group found in all other chlorophylls (Chls) must be removed. This reaction is postulated to be the first committed step in the synthesis of these BChls. Analyses of gene neighborhoods of (B)Chl biosynthesis genes and distribution patterns in organisms producing chlorosomes helped to identify a gene (bciC) that appeared to be a good candidate to produce the enzyme involved in this biochemical reaction. To confirm that this was the case, a deletion mutant of an open reading frame orthologous to bciC, CT1077, was constructed in Chlorobaculum tepidum, a genetically tractible green sulfur bacterium. The CT1077 deletion mutant was unable to synthesize BChl c but still synthesized BChl a and Chl a. The deletion mutant accumulated large amounts of various (bacterio)pheophorbides, all of which still had C-13(2)-methylcarboxyl groups. A C. tepidum strain in which CT1077 was replaced by an orthologous gene, Cabther_B0081 [corrected] from "Candidatus Chloracidobacterium thermophilum" was constructed. Although the product of Cabther_B0081 [corrected] was only 28% identical to the product of CT1077, this strain synthesized BChl c, BChl a, and Chl a in amounts similar to wild-type C. tepidum cells. To indicate their roles in the first committed step of BChl c, d, and e biosynthesis, open reading frames CT1077 and Cabther_B0081 [corrected] have been redesignated bciC. The potential mechanism by which BciC removes the C-13(2)-methylcarboxyl moiety of chlorophyllide a is discussed.
Highlights
The self-assembly of BChl c, d, and e molecules into such structures is directly related to two distinctive features of these molecules [12, 13]: the presence of C-31-hydroxyl group, which provides a ligand to an adjacent BChl molecule and the absence of C-132-methylcarboxyl group, which reduces steric hindrance that would otherwise interfere with self-aggregation [14]
The unidentified gene should encode an enzyme for the removal of C-132-methylcarboxyl group, which was thought to be the first committed step in the synthesis of BChl c, BChl d, and BChl e from Chlide a
The ⌬CT1077 deletion mutant of C. tepidum completely lacked BChl c and exclusively accumulated (B)Pheides with C-132-methylcarboxyl groups. These results clearly demonstrated that the CT1077 gene product is essential for the removal of the C-132-methylcarboxyl moiety from Chlide a, which is expected to be the first committed step in BChl c biosynthesis [3]
Summary
Achieve optimal light absorption under diverse, light-limiting growth conditions. Using C. tepidum as a genetically tractable model organism, the biosynthetic pathway for the synthesis of BChl cF (BChl c esterified with farnesol), BChl aP (BChl a esterified with phytol), and Chl aPD (Chl a esterified with ⌬2,6-phytadienol) has been well characterized in green sulfur bacteria. No homologs of pheophorbidase occur in the sequenced genomes of BChl c, d, or e-synthesizing organisms, and the gene product responsible for pheophorbide demethoxycarbonylase has not yet been identified. A presently unknown gene product(s) must catalyze the removal of C-132-methylcarboxyl group in bacteria that produce chlorosomes. To verify that BciC played a role in BChl c biosynthesis, a C. tepidum null mutant was constructed by deleting the bciC gene. This mutant was unable to synthesize BChl c and accumulated a variety of Bpheides. By characterizing these compounds in detail, we show that BciC is essential for the removal of the C-132-methylcarboxyl group of Chlide a. The biochemical and physiological properties of the ⌬bciC mutant are described, and the potential enzymatic function of BciC is discussed
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