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Experimental Application of Mathematical Models

This work explores the intersection of mathematical modeling and biological processes, specifically focusing on microtubule dynamics, kinesins, kinetochores, and cytokinesis during mitosis. Key insights include the role of CENP-Q in anaphase and the impact of protein purification methods on cellular behavior. We also delve into DNA transfection techniques in E. coli and analyze growth rates in relation to model concentrations of bacteria. This research aims to enhance our understanding of cellular mechanisms through rigorous mathematical approaches.

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Experimental Application of Mathematical Models

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  1. Experimental Application of Mathematical Models ChristopherSmith

  2. Microtubules • Kinesins / molecular motors • Kinetochores • Cytokinesis • Microscopedevelopment

  3. What I do Anaphase in mitosis Kinetochore- microtubules CENP-Q

  4. What I do Watch this space.

  5. Protein Purification • Transfect DNA into E. coli …and grow! transfection mitosis But how long for?

  6. A Model Concentration of bacteria Growth rate

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