FORMATION OF ARSENOBETAINE FROM ARSENOCHOLINE BY MICROORGANISMS OCCURRING IN SEDIMENTS

As one of the experiments to pursue marine circulation of arsenic, we studied microbiological conversion of arsenocholine to arsenobetaine, because arsenocholine may be a precursor of arsenobetaine in these ecosystems. Two culture media, 1/5 ZoBell 2216E and an aqueous solution of inorganic salts, were used in this in vitro study. To each medium (25 cm3) were added synthetic arsenocholine (0.2%) and about 1 g of the sediment, and they were aerobically incubated at 25-degrees-C in the dark. These conversion experiments were performed in May and July 1990. In both seasons. two or three metabolites were derived in each mixture. These metabolites were purified using cation-exchange chromatography. Their structures were confirmed as arsenobetaine, trimethylarsine oxide and dimethylarsinic acid by high-performance liquid chromatography, thin-layer chromatography, FAB mass spectrometry and a combination of gas-chromatographic separation with hydride generation followed by a cold-trap technique and selected-ion monitoring mass spectrometric analysis. From this and other evidence it is concluded that. in the arsenic cycle in these marine ecosystems, as recently postulated by us, the pathway arsenocholine --> arsenobetaine --> trimethylarsine oxide --> dimethylarsinic acid --> methanearsonic acid --> inorganic arsenic can be carried out by micro-organisms alone.