Epimerization at C-3'' in butirosin biosynthesis by an NAD(+) -dependent dehydrogenase BtrE and an NADPH-dependent reductase BtrF.

Butirosin is an aminoglycoside antibiotic consisting two epimers at C-3'' of ribostamycin/xylostasin with a unique 4-amino-2-hydroxybutyrate moiety at C-1 of the aminocyclitol 2-deoxystreptamine (2DOS). To date, most of the enzymes encoded in the biosynthetic gene cluster for butirosin, from the producing strain Bacillus circulans, have been characterized. A few unknown functional proteins, including nicotinamide adenine dinucleotide cofactor-dependent dehydrogenase/reductase (BtrE and BtrF), are supposed to be involved in the epimerization at C-3'' of butirosin B/ribostamycin but remain to be characterized. Herein, the conversion of ribostamycin to xylsostasin by BtrE and BtrF in the presence of NAD(+) and NADPH was demonstrated. BtrE oxidized the C-3'' of ribostamycin with NAD(+) to yield 3''-oxoribostamycin. BtrF then reduced the generated 3''-oxoribostamycin with NADPH to produce xylostasin. This reaction step was the last piece of butirosin biosynthesis to be described.