Jg. Becker et Dl. Freedman, USE OF CYANOCOBALAMIN TO ENHANCE ANAEROBIC BIODEGRADATION OF CHLOROFORM, Environmental science & technology, 28(11), 1994, pp. 1942-1949
Biodegradation of chloroform (CF) was examined in a methanogenic enric
hment culture grown on dichloromethane (DCM) as the sole organic carbo
n and energy source, with and without the addition of supplemental cya
nocobalamin. In the absence of cyanocobalamin, the principal products
of [C-14] CF biodegradation were (CO2)-C-14 and [C-14]DCM. The extent
of CF reduction to DCM increased significantly when CF was biodegraded
in the presence of a large amount of DCM. The addition of cyanocobala
min enhanced CF biodegradation in two ways. First, the rate of CF biod
egradation increased approximately 10-fold. Second, the metallocofacto
r increased the extent of CF oxidation to CO2 and virtually eliminated
the accumulation of DCM. These effects were not observed in autoclave
d cultures supplemented with cyanocobalamin. When cyanocobalamin was a
dded to viable cultures, as much as 10% of the [C-14]CF transformed ac
cumulated as C-14-labeled carbon monoxide. This suggested that the oxi
dation of CF to CO2 proceeds via net hydrolysis to CO. CF levels as hi
gh as 2.2 mM were readily transformed, without accumulation of DCM, at
cyanocobalamin to CF molar ratios of 3-5%. Although the organism or c
onsortium responsible for CF biodegradation was not identified, prior
work with DCM suggests that acetogenic bacteria are involved.