Microalgae are not able to produce cobamides (Cbas, B12 vitamers) de novo. Hence, the production of catalytically active Cba-containing methionine synthase (MetH), which is present in selected representatives, is dependent on the availability of exogenous B12 vitamers. Preferences in the utilization of exogenous Cbas equipped with either adenine or 5,6-dimethylbenzimidazole as lower base have been reported for some microalgae. Here, we investigated the utilization of norcobamides (NorCbas) for growth by the Cba-dependent Chlamydomonas reinhardtii mutant strain (ΔmetE). The growth yields in the presence of NorCbas were lower in comparison to those achieved with Cbas. NorCbas lack a methyl group in the linker moiety of the nucleotide loop. C. reinhardtii was also tested for the remodeling of NorCbas (e.g. adeninyl-norcobamide) in the presence of different benzimidazoles. Extraction of the NorCbas from C. reinhardtii, their purification, and identification confirmed the exchange of the lower base of the vitamers. However, the linker moiety of the NorCbas nucleotide loop was not exchanged. This observation strongly indicates the presence of an alternative mode of Cba deconstruction in C. reinhardtii that differs from the amidohydrolase (CbiZ)-dependent pathway described in Cba-remodeling bacteria and archaea.
Keywords: Chlamydomonas; cobamide remodeling; methionine synthase; microalgae; norcobamides; vitamin B12.
© The Author(s) 2020. Published by Oxford University Press on behalf of FEMS.