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MODEL0318212660 - Bhattacharya2011_UreaCycle

 

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Reference Publication
Publication ID: https://www.novapubl...
Pradip Bhattacharya, Alok Srivastava, Sarbashish Das, Samiyadeep Nandi, Ganeshan Tamil, Ashutosh Viswabandhu, HemantaKwashua, Rabi Yadav Lokesh Nigam, Anmol Khan, Chetna Singh, Arvind Mer, Vikram Sinha, Rehan Mohommad, Candida Vaz, R.N. Rai, D.K. Lobyal,
Time Scale Simulation of Vmax of Urea Cycle Enzymes
International Journal of Evolution Equations 2011; 5(4)
School of Life Science, School of Information Technology, School of Computer Centre, Jawaharlal Nehru University, New Delhi 110067  [more]
Model
Original Model: 02J2
Submitter: pradip bhattacharya
Submission Date: 21 Apr 2009 12:50:13 UTC
Last Modification Date: 12 Apr 2012 11:18:41 UTC
Creation Date: 12 Apr 2012 11:18:41 UTC
Encoders:
 
Notes

This model is from the article:
Time Scale Simulation of Vmax of Urea Cycle Enzymes.
Pradip Bhattacharya, Alok Srivastava, Sarbashish Das, Samiyadeep Nandi, Ganeshan Tamil, Ashutosh Viswabandhu, HemantaKwashua, Rabi Yadav Lokesh Nigam, Anmol Khan, Chetna Singh, Arvind Mer, Vikram Sinha, Rehan Mohommad, Candida Vaz, R.N. Rai, D.K. Lobyal, International Journal of Evolution Equations 2011; 5(4); URL
Abstract:
The objective of this study was to initialize the time-scale simulation of urea cycle enzymes based on the very limited amount of experimental data. As a model example, Vmax of each four enzymes was simulated with varying time for some organisms. These results indicated that the values of Vmax of time-scale simulation of all four enzymatic reactions of urea cycle were very close to 0.09-0.4, and were comparable (deviation ≤0.01-0.1) for steady state kinetic measurements. Enzymes of several organisms were included in this study protocol.

Note: The author submitted the model twice accidently. This model is identical to MODEL0318407497

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To cite BioModels Database, please use: Li C, Donizelli M, Rodriguez N, Dharuri H, Endler L, Chelliah V, Li L, He E, Henry A, Stefan MI, Snoep JL, Hucka M, Le Novère N, Laibe C (2010) BioModels Database: An enhanced, curated and annotated resource for published quantitative kinetic models. BMC Syst Biol., 4:92.

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