Novel bacteriochlorophyll e structures and species-specific variability of pigment composition in green sulfur bacteria

The relative composition of bacteriochlorophyll (BChl) homologs in five different strains of brown-colored green sulfur bacteria was investigated by HPLC-MS/ MS and NMR analyses. In addition, the effect of incubation light intensities on homolog distribution was studied in one of the strains (strain Dagow III). A total of 23 different BChl e structures were detected and comprise four homologous porphyrin ring systems and eight different esterifying alcohols. Several BChl e structures are novel. These include a C-8 ethyl, C-12 methyl [E, M] BChl e(F) homolog which was identified by H-1-NMR analyses of the isolated, main farnesyl homologs (BChl e(F))- In addition, five previously unknown homolog series with dodecanol, pentadecenol, tetradecanot, hexadecenol and phytol as the esterifying alcohols were detected. The composition of BChl e homologs from the five strains of green sulfur bacteria differed with respect to the relative abundance of the homologs (BChl e(F) : 25.6-67.0% of total BChl e content in stationary cultures). In strain Dagow III, the abundance of BChl e(F) homologs decreased upon entry into the stationary phase. In all free-living strains, the abundance of BChl e(F) was increased when the relative carotenoid content was low. The present results provide a detailed picture of pigment composition in chlorosomes and thus will help to elucidate their structure and function. Furthermore, the newly discovered BChl e molecules are valuable biomarkers for the study of the occurrence and metabolism of green sulfur bacteria in past and present ecosystems.