Purification and characterization of cycloisomaltotetraose-forming glucanotransferases from Agreia sp. D1110 and Microbacterium trichothecenolyticum D2006.

Glucanotransferases that can synthesize cyclo-{→6)-α-d-Glcp-(1→6)-α-d-Glcp-(1→6)-α-d-Glcp-(1→6)-α-d-Glcp-(1→} (CI4) from dextran were purified to homogeneity from the culture supernatant of Agreia sp. D1110 and Microbacterium trichothecenolyticum D2006. The molecular mass of both enzymes was estimated to be 86 kDa by SDS-PAGE.

New nucleoside hydrolase with transribosylation activity from Agromyces sp. MM-1 and its application for enzymatic synthesis of 2'-O-methylribonucleosides.

Microorganisms were screened for transribosylation activity between 2'-O-methyluridine (2'-OMe-UR) and nucleobases, for the purpose of developing a biotransformation process to synthesize 2'-O-methylribonucleosides (2'-OMe-NRs), which are raw materials for nucleic acid drugs. An actinomycete, Agromyces sp. MM-1 was found to produce 2'-O-methyladenosine (2'-OMe-AR) when whole cells were used in a reaction mixture containing 2'-OMe-UR and adenine.

Enzymatic synthesis of 2'-O-methylribonucleosides with a nucleoside hydrolase family enzyme from Lactobacillus buchneri LBK78.

2'-O-Methylribonucleosides (2'-OMe-NRs) are promising raw materials for the production of nucleic acid drugs. We previously reported that LbNH, a nucleoside hydrolase from Lactobacillus buchneri LBK78 (NITE P-01581), was the first enzyme found to act on 2'-OMe-NRs. In the present study, we determined that LbNH also has the transribosylation activity between 2'-OMe-NRs and nucleobases, in addition to the hydrolyzing activity towards 2'-OMe-NRs.

A novel nucleoside hydrolase from Lactobacillus buchneri LBK78 catalyzing hydrolysis of 2'-O-methylribonucleosides.

2'-O-Methylribonucleosides (2'-OMe-NRs) are promising raw materials for nucleic acid drugs because of their high thermal stability and nuclease tolerance. In the course of microbial screening for metabolic activity toward 2'-OMe-NRs, Lactobacillus buchneri LBK78 was found to decompose 2'-O-methyluridine (2'-OMe-UR). The enzyme responsible was partially purified from L.