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Team:IIT Bombay India/Modeling
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Biological systems are known to have a great degree of regulation in their activity, and this higher level of control is attributed to the multiple levels of feedback that exist within any biochemical pathway. As a means of gaining deeper insight within the utility of multiple feedback loops, we have constructed 4 strains containing plasmids with modified lac operon. | Biological systems are known to have a great degree of regulation in their activity, and this higher level of control is attributed to the multiple levels of feedback that exist within any biochemical pathway. As a means of gaining deeper insight within the utility of multiple feedback loops, we have constructed 4 strains containing plasmids with modified lac operon. | ||
[[Team:IIT_Bombay_India/DDM|Detailed Deterministic Model]] | [[Team:IIT_Bombay_India/DDM|Detailed Deterministic Model]] | ||
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[[Team:IIT_Bombay_India/PSM|Phenomenological Stochastic Model]] | [[Team:IIT_Bombay_India/PSM|Phenomenological Stochastic Model]] | ||
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[[Team:IIT_Bombay_India/CAM|Control Analysis Model]] | [[Team:IIT_Bombay_India/CAM|Control Analysis Model]] | ||
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Revision as of 17:13, 21 October 2009
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Stochastic modeling of the laci system with multiple feedback using langevin approach |
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Biological systems are known to have a great degree of regulation in their activity, and this higher level of control is attributed to the multiple levels of feedback that exist within any biochemical pathway. As a means of gaining deeper insight within the utility of multiple feedback loops, we have constructed 4 strains containing plasmids with modified lac operon. Detailed Deterministic Model |
