Drubin Lab Publications

Selected publications
Click here for a complete list on PubMed

  • Actin and dynamin2 dynamics and interplay during clathrin-mediated endocytosis. [Grassart A, Cheng AT, Hong SH, Zhang F, Zenzer N, Feng Y, Briner DM, Davis GD, Malkov D, Drubin DG. (2014)   J Cell Biol. Jun 9;205(5):721-35.] [Link]
  • Regulation of clathrin-mediated endocytosis by dynamic ubiquitination and deubiquitination. [Weinberg JS, Drubin DG. (2014)  Curr Biol. 2014 Apr 15. pii: S0960-9822(14)00330-3. doi: 10.1016/j.cub.2014.03.038.] [Link]
  • Cell-cycle regulation of fromin-mediated actin cable assembly. [Miao Y, Wong CC, Mennella V, Michelot A, Agard DA, Holt LJ, Yates JR 3rd, Drubin DG. (2013)  Proc Natl Acad Sci U S A. 2013 Oct 16.] [Link]
  • Actin filament elongation in Arp2/3-derived networks is controlled by three distinct mechanisms. [Michelot, A, Grassart, A, Okreglak, V, Costanzo, M, Boone, C and Drubin DG. (2013) Dev. Cell 24(2):182-95] [Link]
  • Orm protein phosphorylation mediates transient sphingolipid biosynthesis response to heat stress via the Pkh-Ypk and Cdc55-PP2A pathways. [Sun Y, Miao Y, Yamane Y, Zhang C, Shokat KM, Takematsu H, Kozutsumi Y, Drubin DG. 2012.  Mol Biol Cell. Jun;23(12):2388-98.] [Link]
  • Determinants of endocytic membrane geometry, stability and scission. [Kishimoto T, Sun Y, Buser C, Liu J, Michelot A, Drubin DG. (2011)  Proc Natl Acad Sci U S A. 108(44):E979-88.] [Link]
  • Rapid and efficient clathrin-mediated endocytosis revealed in genome-edited mammalian cells. [Doyon JB, Zeitler B, Cheng J, Cheng AT, Cherone JM, Santiago Y, Lee AH, Vo TD, Doyon Y, Miller JC, Paschon DE, Zhang L, Rebar EJ, Gregory PD, Urnov FD and Drubin DG (2011) Nat. Cell Biol. 13(3):331-7] [Link]
  • Reconstitution and Protein Composition Analysis of Endocytic Actin Patches. [Michelot A, CostanzoM, Sarkeshik A, Boone C, Yates III, JR, and Drubin DG (2010) Curr. Biol. 9;20(21):1890-9] [Link]
  • Loss of Aip1 reveals a role in maintaining the actin monomer pool and an in vivo oligomer assembly pathway. [Okreglak, V, and Drubin, DG (2010) J. Cell Biol. 188:769-77] [Link]
  • A yeast killer toxin screen provides insights into A/B toxin entry, trafficking and killing mechanisms. [Carroll, SY, Stirling, PC, Stimpson, HEM, Gießelmann, E., Schmitt, MJ and Drubin, DG. (2009) Dev. Cell. Oct 17(4):552-60.] [Link]
  • The mechanochemistry of endocytosis. [Liu, J, Sun, Y, Drubin, DG and Oster, GF. (2009) PLOS Biology. Sep;7(9):e1000204. Epub 2009 Sep 29.] [Link]
  • Cofilin recruitment and function during actin-mediated endocytosis dictated by actin nucleotide state. [Okreglak, V and Drubin, DG (2007) J. Cell Biol. 178(7):1251-64.] [Link]
  • Endocytic internalization in budding yeast requires coordinated actin nucleation and myosin motor activity. [Sun, y, Martin, AC and Drubin, DG (2006) Dev. Cell 11:33-46] [Link]
  • Spatial dynamics of receptor-mediated endocytic trafficking in budding yeast. [Toshima, JY, Toshima, J, Kaksonen, M, Martin, AC, King, DS and Drubin, DG (2006) Proc. Natl. Acad. Sci. USA 103:5793-8.] [Link]
  • A modular design for the clathrin- and actin-mediated endocytosis machinery. [Kaksonen, M, Toret, CP and Drubin, DG (2005) Cell 123:305-320] [Link]
  • A pathway for association of receptors, adaptors and actin during endocytic internalization. [Kaksonen, M, Sun, Y and Drubin, DG (2003) Cell 115:475-487] [Link]