Synchrotron x-ray diffraction study on the size distribution and mechanical stability of microtubules by microtubule-associated-protein (MAP) tau

M.C. Choi; U. Raviv; H. Miller; M. Gaylord; E. Kiris; D. Ventimiglia; L. Wilson; M.W. Kim; S. Feinstein; Cyrus Safinya

Synchrotron x-ray diffraction study on the size distribution and mechanical stability of microtubules by microtubule-associated-protein (MAP) tau

ORAL

Abstract

In neurons, microtubules (MTs), 25nm protein nanotubes, are used extensively as tracks for transporting nutrients and cellular components between the cell body and axons. MAP tau regulates microtubule assembly and, in a poorly understood manner, inter-MT interactions. Altered tau-MT interactions leads to MT depolymerization and tau tangles, which is implicated in a large number of neurodegenerative diseases. We will show that the size distribution and the enhanced mechanical stability of MTs by tau bindings are dependent on tau isoforms. Supported by DOE DE-FG02-06ER46314, NSF DMR-0503347, and NIH GM-59288, NIHI RO1-NS35010.

March 13, 2008, 2:06 PM – March 13, 2008, 2:18 PM

Authors

M.C. Choi
- UC Santa-Barbara
U. Raviv
H. Miller
M. Gaylord
E. Kiris
D. Ventimiglia
L. Wilson
M.W. Kim
S. Feinstein
Cyrus Safinya
- Materials, Physics, and Molecular, Cellular and Developmental Biology Departments, University of California, Santa Barbara
- UC Santa-Barbara