A possible biochemical missing link among archaebacteria

Abstract

Until recently all archaebacteria isolated conformed to one of three basic phenotypes: they were either methanogens, extreme halophiles, or ('sulphur-dependent') extreme thermophiles. However, a novel phenotype, that fits none of these categories, has recently been described. The organism, strain VC-16 (tentatively called "Archaeoglobus fulgidus") reduces sulphate--the only archaebacterium so far known to do so--and makes very small quantities of methane, although it lacks some of the cofactors normally associated with methanogenesis. These characteristics suggest that strain VC-16 might represent a transition form between an anaerobic thermophilic sulfur-based type of metabolism (which seems to be the ancestral metabolism for archaebacteria and methanogenesis (which somehow then derives from it). We here show that the lineage represented by strain VC-16 arises from the archaebacterial tree precisely where such an interpretation would predict that it would, between the Methanococcus lineage (which is the deepest of the methanogen branchings) and that of Thermococcus (the deepest of all branchings on the methanogen side of the tree).