The present study investigated the influence of increase in intracellular [FeFe] hydrogenase levels, in Enterobacter cloacae IIT-BT 08, on the formation of molecular hydrogen. The hydA gene from E. cloacae IIT-BT 08 was successfully amplified and cloned downstream of a tac promoter in an Escherichiacoli-Enterobacter reconstructed pGEX-Kan shuttle vector and introduced into E. cloacae. Finally E. cloacae strain carrying multiple copies of pGEX-Kan-hydA vector was developed. Homologous overexpression of the [FeFe] hydrogenase gene increased the hydrogenase activity by1.3-fold as compared to the wild type. SDS-PAGE confirmed the successful expression of the GST-tagged hydA protein. The hydrogen yield and rate of production in recombinant strain were found to be 1.2-fold and 1.6-fold higher, respectively, compared to the wild type strain. This was found to be concomitant with the shift in the metabolic pathway. In addition, feasibility of using cheese whey as a substrate for biohydrogen production and the effect of its supplementation with yeast extract as nitrogen source was studied for both the wild type and the recombinant strain. It was found that supplementation with 0.3% (w/v) yeast extract enhanced hydrogen production from whey. Further, the yield and rate of hydrogen production from the recombinant was found to be more promising as compared to the wild type. Copyright (C) 2011, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.