Title :
Mechanism of sulfoxidation in artificial cell system
Author :
Chandra, P. Helen ; Saroja Theerdus Kalavathy, S.M. ; Jayaseeli, A. Mary Imelda
Author_Institution :
Res. Dept. of Math., Jayaraj Annapaciam Coll. for Women (Autonomous), Periyakulam, India
Abstract :
Y. Suzuki and H. Tanaka have developed a molecular computing model, Artificial Cell System (ACS) with elementary membrane and hierarchically structurable membranes. A chemical analysis based on kinetic spectro photometric studies on the catalytic activities of iron (III) - salen ion for H2O2 oxidation of organic sulfides and sulfoxides was proposed by A.M.I. Jayaseeli and S. Rajagopal. In this present study a new membrane computing model on Kinetic ARMS is introduced and the mechanism on Artificial Cell system is proposed.
Keywords :
biocomputing; ACS; artificial cell system; catalytic activities; chemical analysis; elementary membrane; hierarchically structurable membranes; iron(III)-salen ion; kinetic ARMS; kinetic spectro photometric studies; membrane computing model; molecular computing model; organic sulfides; sulfoxidation mechanism; Abstracts; Biomembranes; Bismuth; Computational modeling; Iron; Kinetic theory; Oxidation; Abstract Rewriting System on Multiset; Artificial Cell System; Kinetic ARMS in ACS; Membrane structure; Oxidation of Sulfides and Sulfoxides;
Conference_Titel :
Membrane Computing (ACMC), 2014 Asian Conference on
Print_ISBN :
978-1-4799-8011-6
DOI :
10.1109/ACMC.2014.7065798
