Publication Type : Journal Article
Publisher : Chemical Science International Journal
Source : Chemical Science International Journal, 8(4), 1-13, 2015
Url : https://journalcsij.com/index.php/CSIJ/article/view/359
Campus : Coimbatore
School : School of Artificial Intelligence
Center : Center for Computational Engineering and Networking
Year : 2015
Abstract : Here we have estimated the macroscopic entropy production for a mechanical force induced single oligomeric enzyme Kinetics with multiple substrate in a chemiostatic condition. This result is supported by the calculation of the single trajectory approach of forward and reverse path as a tool of stochastic thermodynamics. Through the approach for a particular reaction channel in the forward trajectory and the corresponding reverse reaction channel in the backward trajectory we explored the contribution of each and every sub-reactions or channels to the overall enzymatic processes and made the trajectory analysis of multiple kind of substrates. We have calculated the individual contribution of each sub-reaction in the overall medium entropy production which is exactly valid in the non-equilibrium steady state and it can give an insight about the mechanism of a complex chemical reaction in presence of an applied mechanical force on oligomeric enzyme kinetics.
Cite this Research Publication : Kinetics and entropy production of force-induced oligomeric enzyme catalysis in a single trajectory: Effect of multiple substrates, A. Gangopadhyay, B. Das, K. Banerjee, and G. Gangopadhyay, Chemical Science International Journal, 8(4), 1-13, 2015