Hydrogen production by immobilized R. faecalis RLD-53 using soluble metabolites from ethanol fermentation bacteria E. harbinense B49.

In order to increase the hydrogen yield from glucose, hydrogen production by immobilized Rhodopseudomonas faecalis RLD-53 using soluble metabolites from ethanol fermentation bacteria Ethanoligenens harbinense B49 was investigated. The soluble metabolites from dark-fermentation mainly were ethanol and acetate, which could be further utilized for photo-hydrogen production. Hydrogen production by B49 was noticeably affected by the glucose and phosphate buffer concentration. The maximum hydrogen yield (1.83 mol H(2)/mol glucose) was obtained at 9 g/l glucose. In addition, we found that the ratio of acetate/ethanol (A/E) increased with increasing phosphate buffer concentration, which is favorable to further photo-hydrogen production. The total hydrogen yield during dark- and photo-fermentation reached its maximum value (6.32 mol H(2)/mol glucose) using 9 g/l glucose, 30 mmol/l phosphate buffers and immobilized R. faecalis RLD-53. Results demonstrated that the combination of dark- and photo- fermentation was an effective and efficient process to improve hydrogen yield from a single substrate.

Cloning, expression, and characterization of an acetate kinase from a high rate of biohydrogen bacterial strain Ethanoligenens sp. hit B49.

The acetate kinase (ack) gene from Ethanoligenens sp. hit B49, isolated from a biohydrogen production bioreactor, is a key enzyme and responsible for dephosphorylation of acetyl phosphate with the concomitant production of acetate and ATP; it was cloned, sequenced, and functionally expressed in Escherichia coli BL21(DE3). It contained a 1200-bp open reading frame and encoded a 399-amino-acid protein kinase (molecular weight, 43.22 kDa; isoionic point, pH 5.93) sharing 58% similarity with Thermotoga maritima MSB8 ack. Ack was heterologously expressed in E.coli BL21 (DE3). Ack specific activities of the refolded ack inclusion body from Ethanoligenens sp. hit B49 is 42.12 U at 25 degrees C, and the renaturation percent is 14.36%.