標題: Energy transduction in molecular machines
作者: Chang, Cheng-Hung
Tsong, Tian Yow
交大名義發表
物理研究所
National Chiao Tung University
Institute of Physics
關鍵字: molecular motors;catalytic wheel;stochastic resonance;dipole ratchet model
公開日期: 1-Oct-2007
摘要: An applied force may cause the conformation and thus, the activity of a biological molecule to change. Here we consider a system in which an oscillating or fluctuating electric field is used to actuate membrane protein activities. Most proteins have electric dipoles and net charges in the structure and their conformations are susceptible to the electric and magnetic perturbation. The shape of a cell may also amplify an electric field across its plasma membrane. Therefore, a membrane integral protein such as an ion channel, an ion pump, or a molecular motor, is especially amenable to electric perturbation. The theory of electroconformational coupling addresses the functional implication of this field effect. When an alternating electric field or a fluctuating electric field is employed to actuate a two-state protein oscillator, the dynamics of the conformational change of the protein can be synchronized with the applied field. Through this two-state protein oscillator, we construct a four-state catalytic wheel by coupling an energy transducer mechanism to the two-state protein oscillator. Analysis shows that the catalytic wheel can extract energy from a disordered external energy source, be it electrical, mechanical, or chemical, and convert this stochastic energy source to a usable energy format. The catalytic wheel is tested with the experimental data on the electric field-stimulated cation pumping of Na, K-ATPase. A dipole ratchet model based on the electroconformational coupling concept will also be discussed and compared with the ATP-dependent rotation of a rotary motor F-1-ATPase. Since the working principle of this model is simpler than that of F-1-ATPase, it provides an easier way to realize a nanoscale rotary motor than artificially reconstructing a F-1-ATPase.
URI: http://dx.doi.org/10.1504/IJNBM.2009.027722
http://hdl.handle.net/11536/10298
ISSN: 1793-2920
DOI: 10.1504/IJNBM.2009.027722
期刊: NANO
Volume: 2
Issue: 5
起始頁: 273
結束頁: 280
Appears in Collections:Articles