Chloroform (CF) is largely produced by both anthropogenic and natural sources. It is detected in ground- and surface-water sources and it represents the most abundant halocarbon in the atmosphere. Microbial CF degradation occurs under both aerobic and anaerobic conditions. Apart from a few reports describing the utilization of CF as a terminal electron acceptor during growth, CF degradation was mainly reported as a cometabolic process. CF aerobic cometabolism is supported by growth on short-chain alkanes (i.e. methane, propane, butane and hexane), aromatic hydrocarbons (i.e. toluene and phenol) and ammonia via the activity of monooxygenases operatively divided into different families. The main factors affecting CF cometabolism are i) the inhibition of CF degradation exerted by the growth substrate, ii) the need for reductant supply to maintain monooxygenase activity, and iii) the toxicity of CF degradation products. Under anaerobic conditions, CF degradation was mainly associated to the activity of methanogens, although some examples of CF-degrading sulfate-reducing, fermenting, and acetogenic bacteria are reported in the literature. Higher CF toxicity levels and lower degradation rates were shown by anaerobic systems in comparison to the aerobic ones. Applied, physiological and genetic aspects of microbial cometabolism of CF will be presented along with bioremediation perspectives.
Microbial degradation of chloroform / M. Cappelletti; D. Frascari; D. Zannoni; S. Fedi. - In: APPLIED MICROBIOLOGY AND BIOTECHNOLOGY. - ISSN 0175-7598. - STAMPA. - 96:(2012), pp. 1395-1409. [10.1007/s00253-012-4494-1]
Microbial degradation of chloroform
CAPPELLETTI, MARTINA;FRASCARI, DARIO;ZANNONI, DAVIDE;FEDI, STEFANO
2012
Abstract
Chloroform (CF) is largely produced by both anthropogenic and natural sources. It is detected in ground- and surface-water sources and it represents the most abundant halocarbon in the atmosphere. Microbial CF degradation occurs under both aerobic and anaerobic conditions. Apart from a few reports describing the utilization of CF as a terminal electron acceptor during growth, CF degradation was mainly reported as a cometabolic process. CF aerobic cometabolism is supported by growth on short-chain alkanes (i.e. methane, propane, butane and hexane), aromatic hydrocarbons (i.e. toluene and phenol) and ammonia via the activity of monooxygenases operatively divided into different families. The main factors affecting CF cometabolism are i) the inhibition of CF degradation exerted by the growth substrate, ii) the need for reductant supply to maintain monooxygenase activity, and iii) the toxicity of CF degradation products. Under anaerobic conditions, CF degradation was mainly associated to the activity of methanogens, although some examples of CF-degrading sulfate-reducing, fermenting, and acetogenic bacteria are reported in the literature. Higher CF toxicity levels and lower degradation rates were shown by anaerobic systems in comparison to the aerobic ones. Applied, physiological and genetic aspects of microbial cometabolism of CF will be presented along with bioremediation perspectives.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
