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Shah SB et al. (2007)
Pathways for General and Amyloid-Induced Neuronal Transport
Impairment.
(in preparation) |
Haghnia M, Cavalli V, Shah SB, Schimmelpfeng K, Brusch R,
Yang G, Herrera C, Pilling A, Goldstein LSB (2007)
Dynactin is required for coordinated bidirectional motility, but not for
dynein membrane attachment.
Molecular Biology of the Cell. (in press) |
Shah SB, Yang G, Danuser
G, Goldstein LSB. (2007)
Axonal transport: imaging and modeling of a neuronal process.
Controlled Nanoscale Motion
(Lecture
Notes in Physics). 711:65-84, Springer. |
Robinson DA, Bremner SN, Sethi K, Shah
SB, Sirsi SR, Lutz GJ (2005)
In vivo expression of myosin essential light chain using plasmid
expression vectors in regenerating frog skeletal muscle.
Gene Therapy. 12(4):347-57. |
Shah SB, Davis J, Weisleder N,
Kostavassili I, McCulloch AD, Ralston E, Capetanaki Y, Lieber RL. (2004)
Structural and functional roles of desmin in passively loaded skeletal
muscle fibers.
Biophysical Journal. 86(5):2993-3008. |
Garcia ML, Lobsiger CS, Shah SB,
Deerinick TJ, Crum J, Young D, Ward CM, Crawford TO, Gotow T, Ellisman
MH, Calcutt NA, Cleveland DW. (2003)
NF-M is an essential target for the myelin-directed 'outside in'
signaling cascade that mediates radial axonal growth.
Journal of Cell Biology. 163(5):1011-20. |
Shah SB and
Lieber RL. (2003)
Simultaneous imaging and functional assessment of cytoskeletal protein
connections in passively loaded single muscle cells.
Journal of Histochemistry and Cytochemistry. 51(1): 19-29. |
Lieber RL,
Shah SB, Fridén J. (2002)
Cytoskeleton disruption after eccentric contraction-induced muscle
injury (review).
Clinical Orthopaedics and Related Research. 403 Suppl: S90-9. |
Shah
SB, Su F, Jordan KA, Milner DJ, Fridén J, Capetenaki Y, Lieber RL (2002)
Evidence for increased myofibrillar mobility in desmin-null mouse
skeletal muscle.
Journal of Experimental Biology 205: 321-5. |
Shah
SB, Peters D, Jordan KA, Capetenaki Y, Milner DJ, Lieber RL (2001)
Sarcomere number regulation maintained after immobilization in desmin-null
mouse skeletal muscle.
Journal of Experimental Biology. 204: 1703-1710. |
Sam
M, Shah SB, Fridén J, Milner DJ, Capetenaki Y, Lieber RL (2000)
Desmin knockout muscles generate lower stress and are less vulnerable to
injury compared to wild-type muscles.
American Journal of Physiology. 279: C1116-C1122. |
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