H2-dependent mixotrophic growth of N2-fixing Azotobacter vinelandii

Abstract

Azotobacter vinelandii can grow with a variety of organic carbon sources and fix N2 without the need for added H2. However, due to an active H2-oxidizing system, H2-dependent mixotrophic growth in an N-free medium was demonstrated when mannose was provided as the carbon source. There was no appreciable growth with either H2 or mannose alone. Both the growth rate and the cell yield were dependent on the concentrations of both substrates, H2 and mannose. Cultures growing mixotrophically with H2 and mannose consumed approximately 4.8 mmol of O2 and produced 4.6 mmol of CO2 per mmol of mannose consumed. In the absence of H2, less CO2 was produced, less O2 was consumed, and cell growth was negligible. The rate of acetylene reduction in mixotrophic cultures was comparable to the rate in cultures grown in N-free sucrose medium. The rate of [14C]mannose uptake of cultures with H2 was greater than with argon, whereas [14C]sucrose uptake was unaffected by the addition of H2; therefore, the role of H2 in mixotrophic metabolism may be to provide energy for mannose uptake. A. vinelandii is not an autotroph, as attempts to grow the organism chemoautotrophically with H2 or to detect ribulose bisphosphate carboxylase activity were unsuccessful.