1 / 6

Pharmacology Training Programs in the Future

Pharmacology Training Programs in the Future. Major Accomplishments in Pharmacology and Impact of other disciplines. (partly from ASPET’s “Significant events in Pharmacology”). 1978 - Discovery of G proteins - biochemistry 1981-1983 - ANP - physiology/biochemistry

booker
Download Presentation

Pharmacology Training Programs in the Future

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Pharmacology Training Programs in the Future

  2. Major Accomplishments in Pharmacology and Impact of other disciplines. (partly from ASPET’s “Significant events in Pharmacology”) 1978 - Discovery of G proteins - biochemistry 1981-1983 - ANP - physiology/biochemistry 1988 - ANP receptor Guanylyl Cyclase - biochem/mol. biology 1987 - Zidovudine effective against HIV - virology/immunology Late 80’s to 90’s - Structures of G proteins (ras, Gi, Gs, G) biochem/structural biol 1997 - structure of adenylyl cyclase - biochem/structural biol 2000 - structure of rhodopsin (GPCR) - biochem/structural biol 90’s - current - transgenics and knock outs - genetics/mol. biol./physiol/pathology.

  3. Systems Biology Mathematical Modeling Pharmacogenomics Molecular Biology Biochemistry Cell Biology Chemistry Immunology Microbiology Physiology Structural Biology Genetics Proteomics Astrophysics Pharmacology

  4. Pharmacology Students/Postdocs Other (writing Patent law, etc) Industry Academia Govt. (CDC NIH, etc.) Administration Science (R&D) Teaching

  5. Needs on curriculum: How much do we teach? • What do we teach? • More Biochemistry? Proteomics? • Systems Biology/ Computational Biology (Mathematical • Modeling)? - Collaborations with biology/math depts. • joint programs? • Small molecule screens? (interactions with industry) • Intellectual Property and Patenting? (ditto) • More genomics/genetics? • Structure based inhibitors/activators? Structural Biology? • Administration? Ph.D/MBA programs?

  6. Enhance the translational side of research Collaborations with Clinicians (co-mentors/committee members) - insights into clinical trials Collaborations/Partership with Industry (scholarships/fellowships) Co-mentors in Industry? Advantages: Learn hands-on the processes that contribute to drug development - analyses of clinical trial data Gain insights into the nuances of how Industry works - from data books, proprietary rights, to research priorities. Make informed decisions about careers in industry. Hurdles: Time away from primary lab Delay in publications! Commitment on part of industry? - investment?

More Related