Algae acquire vitamin B12 through a symbiotic relationship with bacteria

Vitamin B-12 ( cobalamin) was identified nearly 80 years ago as the anti- pernicious anaemia factor in liver(1), and its importance in human health and disease has resulted in much work on its uptake(2), cellular transport(3) and utilization(4). Plants do not contain cobalamin because they have no cobalamin-dependent enzymes. Deficiencies are therefore common in strict vegetarians(5), and in the elderly, who are susceptible to an autoimmune disorder that prevents its efficient uptake(6). In contrast, many algae are rich in vitamin B-12, with some species, such as Porphyra yezoensis (Nori), containing as much cobalamin as liver(7). Despite this, the role of the cofactor in algal metabolism remains unknown, as does the source of the vitamin for these organisms. A survey of 326 algal species revealed that 171 species require exogenous vitamin B-12 for growth, implying that more than half of the algal kingdom are cobalamin auxotrophs. Here we show that the role of vitamin B-12 in algal metabolism is primarily as a cofactor for vitamin B-12-dependent methionine synthase, and that cobalamin auxotrophy has arisen numerous times throughout evolution, probably owing to the loss of the vitamin B-12-independent form of the enzyme. The source of cobalamin seems to be bacteria, indicating an important and unsuspected symbiosis.