User:Jayajit Das

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* Year, BS, Institute
* Year, BS, Institute
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==Research interests==
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My lab uses theoretical and computational approaches based on statistical physics to uncover basic mechanistic principles underlying our innate and adaptive immune response.  Obtaining such mechanistic principles from experimental observations alone is often difficult because the pertinent processes include co-operative dynamic events with many participating components. A further complication that confounds intuition is stochastic fluctuations in these systems with small numbers of molecules. However, by synergistically integrating observations from experiments with transgenic animals, single molecule techniques and imaging studies probing molecular events in live animals with these theoretical and computational approaches we can provide system-level understanding into such complex systems. The mechanistic insight gained from such studies not only will help develop future experiments to unravel basic principles of our immune system, but may also help envision therapeutic strategies for infectious diseases and autoimmune disorders.
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# Interest 1
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# Interest 2
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==Publications==
==Publications==

Revision as of 21:21, 24 November 2008

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Contents

Contact Info

Jayajit Das (an artistic interpretation)
Jayajit Das (an artistic interpretation)
  • Jayajit Das
  • Battelle Center for Mathematical Medicine, Nationwide Children's Hospital
  • Biophysics Graduate Program and Department of Pediatrics, Ohio State University
  • Columbus, OH 43205.
  • Email me through OpenWetWare

Education

  • Year, PhD, Institute
  • Year, MS, Institute
  • Year, BS, Institute

My lab uses theoretical and computational approaches based on statistical physics to uncover basic mechanistic principles underlying our innate and adaptive immune response. Obtaining such mechanistic principles from experimental observations alone is often difficult because the pertinent processes include co-operative dynamic events with many participating components. A further complication that confounds intuition is stochastic fluctuations in these systems with small numbers of molecules. However, by synergistically integrating observations from experiments with transgenic animals, single molecule techniques and imaging studies probing molecular events in live animals with these theoretical and computational approaches we can provide system-level understanding into such complex systems. The mechanistic insight gained from such studies not only will help develop future experiments to unravel basic principles of our immune system, but may also help envision therapeutic strategies for infectious diseases and autoimmune disorders.

Publications

  1. Goldbeter A and Koshland DE Jr. . pmid:6947258. PubMed HubMed [Paper1]
  2. JACOB F and MONOD J. . pmid:13718526. PubMed HubMed [Paper2]
    leave a comment about a paper here

  3. Mark Ptashne. A genetic switch. Cold Spring Harbor, N.Y.: Cold Spring Harbor Laboratory Press, 2004. isbn:0879697164. [Book1]
All Medline abstracts: PubMed HubMed

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