Assimilative Pathway of Methanol in Candida sp. Incorporation of 14C-Methanol, 14C-Formaldehyde, 14C-Formate and 14C-Bicarbonate into Cell Constituents

1. The incorporation of ¹⁴C-methanol, ¹⁴C-formaldehyde, ¹⁴C-formate and ¹⁴C-bicarbonate into a methanol-utilizing yeast, Candida N–16, was examined by paper-chromato-graphy and radioautography.

2. At the earliest time period examined, the highest percentage of radioactivity fixed from ¹⁴C-methanol or ¹⁴C-formaIdehyde into methanol-grown cells was found in fructose phosphate. The percentage distribution of radioactivity in fructose phosphate decreased as time elapsed. The radioactivity fixed from these compounds into glucose-grown cells was negligible compared with that fixed into methanol-grown cells.

3. The incorporation of ¹⁴C-formate into methanol-grown cells was extremely low. The highest percentage of radioactivity fixed for short time incubation was found in serine. The incorporation pattern of glucose-grown cells was similar to that of methanol-grown cells.

4. At the earliest time period, over 70% of radioactivity fixed from ¹⁴C-bicarbonate into methanol- or glucose-grown cells was found in aspartate.

5. These results suggest that in Candida N–16 methanol is specifically assimilated by a route with hexose phosphate as a primary stable intermediate.