Naming, Addressing and Control in Cell Biology: Difference between revisions
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== Topics == | == Topics == | ||
* Modeling dynamics with stoichiometry matrices | |||
* Modules in biosynthesis: carriers, precursors and pathways | |||
* Control: Fastest: allosteric, Fast: translation, Slow: transcription, example lac operon | |||
* Naming and addressing via molecular recognition, example: $\lambda$ phage repressor | |||
== Slides == | == Slides == | ||
*[http://www.cds.caltech.edu/~doyle/213/Feb02SlidesReading/AAbiosynFeb02.pptx Modular structures in cell biology] | *[http://www.cds.caltech.edu/~doyle/213/Feb02SlidesReading/AAbiosynFeb02.pptx Modular structures in cell biology] | ||
*[http://www.cds.caltech.edu/~doyle/213/Feb02SlidesReading/CtrlProteinLevelFeb02.pptx.pptx Control in proteins] | *[http://www.cds.caltech.edu/~doyle/213/Feb02SlidesReading/CtrlProteinLevelFeb02.pptx.pptx Control in proteins] | ||
Revision as of 07:37, 3 February 2010
Topics
- Modeling dynamics with stoichiometry matrices
- Modules in biosynthesis: carriers, precursors and pathways
- Control: Fastest: allosteric, Fast: translation, Slow: transcription, example lac operon
- Naming and addressing via molecular recognition, example: $\lambda$ phage repressor