標題: Catalytic wheel, Brownian motor, and biological energy transduction
作者: Tsong, TY
Chang, CH
物理研究所
Institute of Physics
公開日期: 1-二月-2005
摘要: An enzyme turns over, or recycles during each catalytic process. It is a catalytic wheel, analogous to a motor, or an engine. The fuel, or the driving force for the wheel, is the free energy of the substrate (S) to product (P) conversion (DeltaG(R)), or a free energy output of a coupled chemical reaction. When DeltaG(R) of the S --> P reaction is negative the reaction is spontaneous and the down-hill wheel motion requires no external input of energy. When DeltaG(R) is positive the wheel must turn uphill against a workload, a reaction that produces energy must be coupled to the wheel. The synthesis of ATP from ADP and P-i in a cell is an uphill reaction and the energy required for the synthesis is derived from the dissipation of a proton gradient, or an electric potential. This article focuses on mechanisms of action of the uphill catalytic wheels. It is shown that the coupling of an external energy source to an uphill catalytic wheel can be done, with nearly 100% efficiency, by mechanisms of the Brownian Motor. Theory of electroconformational coupling (TEC) is used to construct a Brownian motor, and electric activation of an ion pump, Na, K-ATPase is used to demonstrate its basic principles. A TEC Motor has three essential elements: 1) the ability of the protein to interact with an electric field, 2) existence of at least two conformations of protein that oscillate or fluctuate on interaction with the applied field, and 3) a built-in asymmetry in the molecular interactions with substrate and product. It is shown that the TEC Motor is a generic model and applicable to other types of biological energy transducers.
URI: http://hdl.handle.net/11536/23975
ISSN: 0577-9073
期刊: CHINESE JOURNAL OF PHYSICS
Volume: 43
Issue: 1
起始頁: 273
結束頁: 284
顯示於類別:會議論文