Abstract: | The active transport of ammonia gas was obtained with an asymmetric composite membrane-model using H+ as carrier and the formation of water as chemical energy source. The experimental molecular pump externally limited by two silicone films permeable to gasses but not to liquids or ions is separated into two liquid layers by a central cation-exchange membrane. The first acid layer produces the aspiration of NH3, due to NH4+ formation, through the inlet silicone film; NH4+ is transferred to the second alkaline layer through the ion exchange membrane, by interdiffusion with K+; there NH4+ reacts with OH-, water is formed and NH3 is expelled throught the oulet silicone film. This new pump enlarges the applicability of in vitro active transport to non-enzymatic systems and energy sources different from ATP. |