Chromatophore as a light-energy-absorbing system was coupled with an energy-consuming system, NAD kinase, to produce NADP from NAD using ATP as the intermediate energy carrier. The enhancement in the NADP production of the coupled system as compared with the single system containing NAD kinase alone ranged between 30% and 80% depending upon the initial concentration of ATP used in both systems. However, the use of too high an initial concentration of ATP caused a worse NADP production of the coupled system than the single system. There was an optimal concentration of chromatophore at which the NADP production of the coupled system was maximized. This seemed to be due to the shielding effect of the chromatophores themselves. This shielding effect was also investigated with the single reaction system now comprising chromatophore alone in two reaction test tubes of different diameters. The specific ATP production from ADP showed a maximum point when plotted against the chromatophore concentration and this optimal chromatophore concentration decreased with increasing size of the reaction vessel. Dependence of the NADP production on the time of chromatophore introduction into the reaction system was investigated. An optimal chromatophore introduction time was found to exist for the maximum production of NADP.