Ravi Iyengar
Alma materUniversity of Mumbai, University of Houston
Scientific career
FieldsBiochemistry
InstitutionsMount Sinai Medical Center

Ravi Iyengar, is a principal investigator at The Mount Sinai Medical Center.[1][2]

Trained as a biochemist, Iyengar studies cellular signaling networks using both experiments and computer simulations. His laboratory focuses on how cell signals are routed and processed through cellular signaling networks within cells to discover new drug targets for complex diseases.[3][4][5] He has published more than 100 primary papers, 92 reviews and is the editor of 6 books.

Biography

Iyengar earned both an undergraduate degree in Chemistry and Physics in 1971 and a master's degree in Biophysics in 1973 from the University of Mumbai in India. He completed his Ph.D. in Biophysical Sciences at the University of Houston in 1977. He joined Baylor College of Medicine in 1977 as a postdoctoral fellow and rose to assistant and then associate professor. In 1986, he joined the Department of Pharmacology at The Mount Sinai Medical Center as an associate professor. In 1999, he was appointed chairman of the Department of Pharmacology at Mount Sinai, and in 2001 he was named Mount Sinai's Dorothy H. and Lewis Rosenstiel Professor and chair of the Department of Pharmacology and Biological Chemistry. He stepped down from his position as chair in January 2014.

Iyengar served as the dean of research for The Mount Sinai School of Medicine from 2002 to 2004.

In 2004, Iyengar was elected fellow of the American Association for the Advancement of Science.[6] Additional honors include:

Iyengar holds Patent No. 20080261820: Methods to Analyze Biological Networks.[7]

Research grants

  • Structure and Function of Signal Transducing Components, 5R01DK03876-21, National Institute of Diabetes and Digestive and Kidney Diseases
  • Dynamics Underlying Tissue Integrity, 1R01DK087650-01, National Institute of Diabetes and Digestive Diseases and Kidney Diseases[8]
  • Systems Biology Center in New York, 5P50GM071558-03, National Institute of General Medical Sciences[9]
  • Functions of Regulatory Motifs in Signaling Networks, 5R01GM054508-21, National Institute of General Medical Sciences[10]
  • Modeling Cell Regulatory Networks, 5R01GM072853-04, National Institute of General Medical Sciences[11]

Books

  • Heterotrimeric G Proteins, Volume 237 (Methods in Enzymology). John N. Abelson, Melvin I. Simon, Ravi Iyengar, editors. Academic Press; 1st edition (June 28, 1994) ISBN 0-12-182138-2
  • Heterotrimeric G-Protein Effectors, Volume 238 (Methods in Enzymology). John N. Abelson, Melvin I. Simon, Ravi Iyengar, Editors. Academic Press; 1st Edition (September 1994) ISBN 0-12-182139-0
  • G Protein Pathways, Part A: Receptors, Volume 343 (Methods in Enzymology). Ravi Iyengar, John D. Hildebrandt, Editors. Academic Press; 1st Edition (October 2001) ISBN 0-12-182244-3
  • G Protein Pathways, Part B: G Proteins and Their Regulators, Volume 344 (Methods in Enzymology). Ravi Iyengar, John D. Hildebrandt, Editors. Academic Press; 1st Edition (December 2001) ISBN 0-12-182245-1
  • G Protein Pathways, Part C: Effector Mechanisms, Volume 345 (Methods in Enzymology). Ravi Ravi Iyengar, John D. Hildebrandt, Editors. Academic Press; 1st Edition (October 2001) ISBN 0-12-182246-X

Publications

Partial list:

References

  1. "Mount Sinai School of Medicine - Faculty profile". Retrieved 2010-03-31.
  2. "Systems Biology Center New York". Retrieved 2010-03-31.
  3. "The Experimental Therapeutics Institute". Archived from the original on March 30, 2009. Retrieved 2010-03-31.
  4. "Integrating and Leveraging the Physical Sciences to Open a New Frontier in Oncology". Retrieved 2010-03-31. The National Cancer Institute Office of Technology and Industrial Relations
  5. Emily Carlson (March 30, 2009). "Q&A: Ravi Iyengar on Molecular Systems". Computing Life. National Institute of General Medical Sciences. Retrieved 2010-03-31.
  6. "American Association for the Advancement of Science". Retrieved September 26, 2015.
  7. "Ravi Iyengar - Patents". Retrieved 2010-03-31. patentdocs
  8. "Structure and Function of Signal Transducing Components: National Institutes of Health". Retrieved September 26, 2015.
  9. "Systems Biology Center in New York: National Institutes of Health". Retrieved September 26, 2015.
  10. "Functions of Regulatory Motifs in Signaling Networks: National Institutes of Health". Retrieved September 26, 2015.
  11. "Modeling Cell Regulatory Networks: National Institutes of Health". Retrieved September 26, 2015.
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