David G. Drubin

David G. Drubin
NationalityAmerican
Occupation(s)Biologist, Academic, and Researcher
AwardsMember, National Academy of Sciences
MERIT Award, National Institutes of Health
Ira Herskowitz Award, Yeast Genetics and Molecular Biology Meeting
Member, American Academy of Arts and Sciences
SPARC Innovator Award for SF Declaration on Research Assessment
Lifetime Achievement Fellow, American Society for Cell Biology
Distinguished Service Award, American Society for Cell Biology
Academic background
EducationA.B., Biochemistry
Ph.D., Biohemistry and Biophysics
Alma materUniversity of California, Berkeley (A.B.)
University of California, San Francisco (PhD with Marc Kirschner)
Massachusetts Institute of Technology (postdoc with David Botstein)
Academic work
InstitutionsUniversity of California, Berkeley

David G. Drubin is an American biologist, academic, and researcher. He is a Distinguished Professor of Cell and Developmental Biology at the University of California, Berkeley where he holds the Ernette Comby Chair in Microbiology.[1]

Drubin has published over 220 papers.[2] His research spans the areas of cell biology, genetics, and biochemistry. The approaches employed for these studies include real-time imaging of live cells, genome editing, mathematical modeling, genetics, and biochemistry. His lab studies human stem cells, stem-cell derived organoids, Zebrafish, and budding yeast to elucidate the molecular mechanisms that underlie highly dynamic subcellular events.[3]

Drubin is a Fellow of American Society for Cell Biology,[4] and a Senior Fellow at the Allen Institute for Cell Science.[5] He served as Editor-in-Chief for Molecular Biology of the Cell for 10 years,[6] advocating for civil and constructive peer review.[7] At the 2012 ASCB annual meeting in San Francisco he organized a meeting of journal editors to discuss the harmful effects of the Journal Impact Factor. This meeting produced the San Francisco Declaration on Research Assessment and earned the leaders of the effort SPARC Innovator Award recognition.[8]

He was elected a member of the National Academy of Sciences in 2022.[9]

Education

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Drubin studied at the University of California, Berkeley, and the University of California, San Francisco, earning, respectively, his Bachelor's and Doctoral degrees in biochemistry in 1980 and Biochemistry and Biophysics in 1985. From 1985 until 1988, he held a Helen Hay Whitney Postdoctoral Fellowship at Massachusetts Institute of Technology (MIT).[1]

Career

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Following his Postdoctoral fellowship, Drubin was appointed as an Assistant Professor of Molecular and Cell Biology at the University of California, Berkeley in 1988. He was promoted to Associate Professor in 1994, and became Professor of Molecular and Cell Biology in 1998.[1]

Research

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Drubin's research utilizes live-cell imaging, genetics, modeling and biochemistry to address fundamental questions concerning the cytoskeleton and membrane trafficking events in budding yeast and genome-edited human stem cells.[10]

Molecular and cell biology

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While isolating the gene encoding microtubule-associated tau protein, a major player in Alzheimer's disease, Drubin developed cell culture models to study its biological function.[11] He distilled general principles for cell polarity development while defining it as the ultimate reflection of complex mechanisms that establish and maintain functionally specialized domains in the plasma membrane and cytoplasm.[12] In a paper published in 2001, he guided establishment of a protein interaction map for cell polarity development, and determined a network of interactions that provide an integrated response of signaling proteins, the cytoskeleton, and organelles to the spatial cues that direct polarity development.[13]

Membrane trafficking and the cytoskeleton

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Drubin studied mutants of over 60 proteins, identifying a pathway in budding yeast in which proteins are recruited to endocytic sites,[14] and also identified several protein modules that provide distinct functions in this pathway. He extended these studies to mammalian cells,[15] and determined the roles of these proteins in endocytosis and cell polarity development.[16] In the early 2000s, he outlined examples of functional cooperation between the microtubule and actin cytoskeletons, and highlighted two broad categories in this context: coordinated MT- and actin-based transport to move vesicles, organelles, and cell fate determinants; and targeting and capture of MT ends at cortical actin sites.[17]

Actin assembly

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In his studies on actin assembly, Drubin demonstrated that although budding yeast are nonmotile, their actin filaments turn over at high rates and he defined the roles for actin in establishment and maintenance of cell polarity while using and popularizing the actin inhibitor latrunculin-A.[18] He established that cofilin is largely responsible for actin filament high turnover rate.[19] He conducted structure-function analysis of actin, described mutating residues involved in nucleotide hydrolysis, and also demonstrated the effects of these mutations on actin assembly in vitro and in vivo.[20] His studies further addressed the role of nucleotide in Arp2/3 function, and highlighted several novel activators of the Arp2/3 complex,[21] which regulates actin nucleation. He has also developed a complex actin assembly system on the surface of microbeads incubated in yeast cell extracts, and has extended this work toward reconstituting complex actin-based trafficking events on supported lipid bilayers.[22]

Awards/honors

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  • 1985-1988 - Helen Hay Whitney Postdoctoral Fellowship
  • 1990-1993 - Searle Scholar Award[23]
  • 1994-1999 - Faculty Research Award, American Cancer Society
  • 2006-2016 - MERIT Award, National Institutes of Health
  • 2008 - Ira Herskowitz Award, Yeast Genetics and Molecular Biology Meeting[24]
  • 2010 - Election to the American Academy of Arts and Sciences[25]
  • 2013 - SPARC Innovator Award for SF Declaration on Research Assessment[26]
  • 2016 - Awarded Ernette Comby Chair in Microbiology, UC Berkeley[27]
  • 2016 - Lifetime Achievement Fellow, American Society for Cell Biology[4]
  • 2019 - Distinguished Service Award, American Society for Cell Biology
  • 2022 - Election to the National Academy of Sciences

Bibliography

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  • Drubin, D. G., & Kirschner, M. W. (1986). Tau protein function in living cells. Journal of Cell Biology, 103(6), 2739–2746.
  • Drubin, D. G., & Nelson, W. J. (1996). Origins of cell polarity. Cell, 84(3), 335–344.
  • Ayscough, K. R., Stryker, J., Pokala, N., Sanders, M., Crews, P., & Drubin, D. G. (1997). High rates of actin filament turnover in budding yeast and roles for actin in establishment and maintenance of cell polarity revealed using the actin inhibitor latrunculin-A. Journal of Cell biology, 137(2), 399–416.
  • Kaksonen M., Sun Y., Drubin D.G., (2003). A pathway for association of receptors, adaptors and actin during endocytic internalization Cell 115(4): 475–87.
  • Kaksonen M., Toret C.P., Drubin D.G., (2005). A modular design for the clathrin- and actin-mediated endocytosis machinery. Cell 123: 305–320.
  • Doyon J.B., Zeitler B., Cheng J., Cheng A.T., Cherone J.M., Santiago Y., Lee A.H., Vo T.D., Doyon Y., Miller J.C., Paschon D.E., Zhang L., Rebar E.J., Gregory P.D., Urnov F.D., & Drubin D.G. (2011). Rapid and efficient clathrin-mediated endocytosis revealed in genome-edited mammalian cells. Nat Cell Biol 13(3): 331–7.

References

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  1. ^ a b c "David G. Drubin".
  2. ^ "David G. DRUBIN - Google Scholar".
  3. ^ "David G Drubin - ResearchGate".
  4. ^ a b "ASCB Fellows".
  5. ^ "David Drubin, Ph.D."
  6. ^ "Welch named editor-in-chief of Molecular Biology of the Cell". 2 May 2019.
  7. ^ Drubin, David G. (2011). "Any jackass can trash a manuscript, but it takes good scholarship to create one (how MBoC promotes civil and constructive peer review)". Molecular Biology of the Cell. 22 (5): 525–527. doi:10.1091/mbc.e11-01-0002. PMC 3046051. PMID 21357757.
  8. ^ "SPARC Innovator - The Creators of DORA".
  9. ^ "2022 NAS Election".
  10. ^ "Drubin/Barnes Lab".
  11. ^ Drubin, D. G.; Kirschner, M. W. (1986). "Tau protein function in living cells". The Journal of Cell Biology. 103 (6): 2739–2746. doi:10.1083/jcb.103.6.2739. PMC 2114585. PMID 3098742.
  12. ^ "Origins of Cell Polarity".
  13. ^ "A protein interaction map for cell polarity development".
  14. ^ Kaksonen, Marko; Toret, Christopher P.; Drubin, David G. (2005). "A Modular Design for the Clathrin- and Actin-Mediated Endocytosis Machinery". Cell. 123 (2): 305–320. doi:10.1016/j.cell.2005.09.024. PMID 16239147. S2CID 18242283.
  15. ^ "Self-Organization and Force Production by the Branched Actin Cyt…" (PDF).
  16. ^ Kaksonen, Marko; Sun, Yidi; Drubin, David G. (2003). "A Pathway for Association of Receptors, Adaptors, and Actin during Endocytic Internalization". Cell. 115 (4): 475–487. doi:10.1016/S0092-8674(03)00883-3. PMID 14622601. S2CID 8304670.
  17. ^ Goode, Bruce L.; Drubin, David G.; Barnes, Georjana (2000). "Functional cooperation between the microtubule and actin cytoskeletons". Current Opinion in Cell Biology. 12 (1): 63–71. doi:10.1016/S0955-0674(99)00058-7. PMID 10679357.
  18. ^ "High Rates of Actin Filament Turnover in Budding Yeast and Roles for Actin in Establishment and Maintenance of Cell Polarity Revealed Using the Actin Inhibitor Latrunculin-A".
  19. ^ Lappalainen, P.; Drubin, D. G. (1997). "Cofilin promotes rapid actin filament turnover in vivo". Nature. 388 (6637): 78–82. doi:10.1038/40418. PMID 9214506. S2CID 205027806.
  20. ^ Wolven, Amy K.; Belmont, Lisa D.; Mahoney, Nicole M.; Almo, Steven C.; Drubin, David G. (2000). "In Vivo Importance of Actin Nucleotide Exchange Catalyzed by Profilin". Journal of Cell Biology. 150 (4): 895–904. doi:10.1083/jcb.150.4.895. PMC 2175289. PMID 10953013.
  21. ^ Jin, Meiyan; Shirazinejad, Cyna; Wang, Bowen; Yan, Amy; Schöneberg, Johannes; Upadhyayula, Srigokul; Xu, Ke; Drubin, David G. (2021). "Rescue of stalled clathrin-mediated endocytosis by asymmetric Arp2/3-mediated actin assembly". doi:10.1101/2021.07.16.452693. S2CID 237501845. {{cite journal}}: Cite journal requires |journal= (help)
  22. ^ Pedersen, Ross T.A.; Drubin, David G. (2019). "Type I myosins anchor actin assembly to the plasma membrane during clathrin-mediated endocytosis". Journal of Cell Biology. 218 (4): 1138–1147. doi:10.1083/jcb.201810005. PMC 6446854. PMID 30659101.
  23. ^ "David G. Drubin".
  24. ^ "Yeast Genetics Meeting".
  25. ^ "Member Directory".
  26. ^ "SPARC Innovator Award Honors Creators of Declaration on Research Assessment".
  27. ^ "Molecular and Cell Biology".
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