Thermotoga lettingae Can Salvage Cobinamide To Synthesize Vitamin B12

Abstract

ABSTRACTWe recently reported that theThermotogalesacquired the ability to synthesize vitamin B12by acquisition of genes from two distantly related lineages,ArchaeaandFirmicutes(K. S. Swithers et al., Genome Biol. Evol. 4:730–739, 2012). Ancestral state reconstruction suggested that the cobinamide salvage gene cluster was present in theThermotogales' most recent common ancestor. We also predicted thatThermotoga lettingaecould not synthesize B12de novobut could use the cobinamide salvage pathway to synthesize B12. In this study, these hypotheses were tested, and we found thatTt. lettingaedid not synthesize B12de novobut salvaged cobinamide. The growth rate ofTt. lettingaeincreased with the addition of B12or cobinamide to its medium. It synthesized B12when the medium was supplemented with cobinamide, and no B12was detected in cells grown on cobinamide-deficient medium. Upstream of the cobinamide salvage genes is a putative B12riboswitch. In other organisms, B12riboswitches allow for higher transcriptional activity in the absence of B12. WhenTt. lettingaewas grown with no B12, the salvage genes were upregulated compared to cells grown with B12or cobinamide. Another gene cluster with a putative B12riboswitch upstream is thebtuFCDABC transporter, and it showed a transcription pattern similar to that of the cobinamide salvage genes. The BtuF proteins from species that can and cannot salvage cobinamides were shownin vitroto bind both B12and cobinamide. These results suggest thatThermotogalesspecies can use the BtuFCD transporter to import both B12and cobinamide, even if they cannot salvage cobinamide.