The gene product of mll6785 of a nitrogen-fixing symbiotic bacterium Mesorhizobium loti MAFF303099 was identified as pyridoxine 4-oxidase, the first enzyme in the vitamin B6-degradation pathway. The gene was cloned and ligated into pET-21a+. Escherichia coli BL21(DE3) was co-transformed with the constructed plasmid plus pKY206 containing groESL genes encoding chaperonins. The overexpressed protein was purified to homogeneity by the ammonium sulfate fractionation and three chromatography steps. The enzymatic properties of the purified protein, such as K(m) values for pyridoxine (213+/-19 microM) and oxygen (78+/-10 microM), were compared to those of pyridoxine 4-oxidase from two bacteria with known vitamin B6-degradation pathway. M. loti grown in a Rhizobium medium showed the enzyme activity. The results suggest that M. loti also contains the degradation pathway of vitamin B6.
SummaryWe have found for the first time that a chromosomal gene, mlr6787, in Mesorhizobium loti encodes the pyridoxine degradative enzyme ␣ -( N -acetylaminomethylene)succinic acid (AAMS) amidohydrolase. The recombinant enzyme expressed in Escherichia coli cells was homogeneously purified and characterized. The enzyme consisted of two subunits each with a molecular mass of 34,000 Ϯ 1,000 Da, and exhibited Km and kcat values of 53.7 Ϯ 6 M and 307.3 Ϯ 12 min Ϫ 1 , respectively. The enzyme required no cofactor or metal ion. The primary structure of AAMS amidohydrolase was elucidated for the first time here. The primary structure of the enzyme protein showed no significant identity to those of known hydrolase proteins and low homology to those of fluoroacetate dehalogenase (PDB code, 1Y37), haloalkane dehalogenase (1K5P), and aryl esterase (1VA4).
The gene product of mll6785 of a nitrogen-fixing symbiotic bacterium Mesorhizobium loti MAFF303099 was identified as pyridoxine 4-oxidase, the first enzyme in the vitamin B6-degradation pathway. The gene was cloned and ligated into pET-21a+. Escherichia coli BL21(DE3) was co-transformed with the constructed plasmid plus pKY206 containing groESL genes encoding chaperonins. The overexpressed protein was purified to homogeneity by the ammonium sulfate fractionation and three chromatography steps. The enzymatic properties of the purified protein, such as K(m) values for pyridoxine (213+/-19 microM) and oxygen (78+/-10 microM), were compared to those of pyridoxine 4-oxidase from two bacteria with known vitamin B6-degradation pathway. M. loti grown in a Rhizobium medium showed the enzyme activity. The results suggest that M. loti also contains the degradation pathway of vitamin B6.
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