Flexibility of enzymatic transitions as a hallmark of optimized enzyme steady-state kinetics and thermodynamics |
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| Institution: | 1. University of Maribor, Faculty of Natural Sciences and Mathematics, Koro?ka Cesta 160, 2000, Maribor, Slovenia;2. University of Maribor, Faculty of Medicine, Taborska Ulica 8, 2000, Maribor, Slovenia;3. University of Maribor, Faculty of Education, Koro?ka Cesta 160, 2000, Maribor, Slovenia;4. University of Maribor, Faculty of Energy Technology, Ho?evarjev Trg 1, 8270, Kr?ko, Slovenia;5. University of Maribor, Faculty of Health Sciences, ?itna Ulica 15, 2000, Maribor, Slovenia;1. Department of Computer Science & Engineering, Dr. Sudhir Chandra Sur Degree Engineering College, 540, Dum Dum Road, Near Dum Dum Jn. Station, Surermath, Kolkata, 700074, India;2. Department of Computer Science & Engineering, University of Calcutta, Saltlake City, Kolkata, 700073, India;3. Department of Computer Science & Engineering, Netaji Subhash Engineering College, Techno City, Panchpota, Garia, Kolkata, 700152, India;1. Kerala Forest Research Institute, Peechi, Thrissur, Kerala, India;2. Department of Botany, University College, Thiruvananthapuram, Kerala, India;1. School of Electronic and Communication Engineering, Shenzhen Polytechnic, Shenzhen, 518000, China;2. School of Management, Shenzhen Polytechnic, Shenzhen, 518000, China;1. Department of Chemistry, Isfahan University of Technology, Isfahan 84156/ 83111, Iran;2. Research Institute for Fundamental Sciences (RIFS), University of Tabriz, Tabriz, Iran;3. Halal Research Center of IRI, FDA, Tehran, Iran;4. Nanotechnology Research Center, Bu-Ali Research Institute, Mashhad University of Medical Sciences, Mashhad, Iran;5. Department of Medical Biotechnology, Student Research Committee, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran;6. Department of Medical Immunology, Student Research Committee, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran;7. Immunology Department and Autoimmune Diseases Research Center. Shiraz University of Medical Sciences, Shiraz. Iran;8. Department of Biotechnology, College of Agriculture, Isfahan University of Technology, Isfahan 84156-83111, Iran;1. Center for Nonlinear Studies, Los Alamos National Laboratory, Los Alamos, NM, 87545, United States;2. Theoretical Biology and Biophysics, Los Alamos National Laboratory, Los Alamos, NM, 87545, United States |
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| Abstract: | We investigate the relations between the enzyme kinetic flexibility, the rate of entropy production, and the Shannon information entropy in a steady-state enzyme reaction. All these quantities are maximized with respect to enzyme rate constants. We show that the steady-state, which is characterized by the most flexible enzymatic transitions between the enzyme conformational states, coincides with the global maxima of the Shannon information entropy and the rate of entropy production. This steady-state of an enzyme is referred to as globally optimal. This theoretical approach is then used for the analysis of the kinetic and the thermodynamic performance of the enzyme triose-phosphate isomerase. The analysis reveals that there exist well-defined maxima of the kinetic flexibility, the rate of entropy production, and the Shannon information entropy with respect to any arbitrarily chosen rate constant of the enzyme and that these maxima, calculated from the measured kinetic rate constants for the triose-phosphate isomerase are lower, however of the same order of magnitude, as the maxima of the globally optimal state of the enzyme. This suggests that the triose-phosphate isomerase could be a well, but not fully evolved enzyme, as it was previously claimed. Herein presented theoretical investigations also provide clear evidence that the flexibility of enzymatic transitions between the enzyme conformational states is a requirement for the maximal Shannon information entropy and the maximal rate of entropy production. |
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| Keywords: | Steady-State thermodynamics Kinetic flexibility Entropy production Information entropy Enzyme kinetics Optimal steady-state |
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