A Combined Hydroxylation of 3‐Cyanopyridine to 3‐Cyano‐6‐hydroxypyridine and 6‐Hydroxynicotinic Acid by Resting Cells of Comamonas testosteroni JA1 Grown on Nicotinic Acid

A strain of Comamonas testosteroni  JA1 known for its capacity to hydroxylate 3‐cyanopyridine to 3‐cyano‐6‐hydroxypyridine was found to be also capable to hydroxylate nicotinic acid at a higher rate. In the course of the induced cultivation the forming 6‐hydroxynicotinic acid was degraded either slightly, in the presence of nicotinic acid in the medium, or faster, in the absence of nicotinic acid. In a combined process of hydroxylation of nicotinic acid by growing culture and hydroxylation of 3‐cyanopyridine by resting cells of Comamonas testosteroni  JA1, not only an additional amount of 50.38 g of solid 6‐hydroxynicotinic acid was produced from 1 L of cultivation broth with a 99.97 % molar conversion yield, but also the yield of 3‐cyano‐6‐hydroxypyridine produced was more than doubled. This can be compared to that of the resting cells from the induced cultivation broth where within 8 h an amount of 5.77 g of solid 3‐cyano‐6‐hydroxypyridine was produced by resting cells from 1 L of the cultivation broth. This also was superior to 4.39 g/L of cultivation broth of resting cells reported in the literature.