Biology Reference
In-Depth Information
Machner, M. P., Urbanke, C., Barzik, M., Otten, S., et al., 2001. ActA from Listeria
monocytogenes can interact with up to four Ena/VASP homology 1 domains
simultaneously. J. Biol. Chem. 276: 40096-40103.
Mayer, B. J. (2001). SH3 domains: complexity in moderation. J. Cell Sci. 114: 1253-1263.
McGoldrick, C. A., Gruver, C. and May, G. S., 1995. myoA of Aspergillus nidulans
encodes an essential myosin I required for secretion and polarized growth. J. Cell Biol.
128: 577-587.
Mermall, V., Post, P. L. and Mooseker, M. S., 1998. Unconventional myosins in cell
movement, membrane trac, and signal transduction. Science 279: 527-533.
Mochida, J., Yamamoto, T., Fujimura-Kamada, K. and Tanaka, K., 2002. The novel
adaptor protein, Mti1p, and Vrp1p, a homolog of Wiskott-Aldrich syndrome protein-
interacting protein (WIP), may
antagonistically
regulate
type
I myosins
in
Saccharomyces cerevisiae. Genetics 160: 923-934.
Mooseker, M. S. and Cheney, R. E., 1995. Unconventional myosins. Ann. Rev. Cell Dev.
Biol. 11: 633-675.
Mullins, R. D., 2000. How WASP-family proteins and the Arp2/3 complex convert
intracellular signals into cytoskeletal structures. Curr. Opin. Cell Biol. 12: 91-96.
Novak, K. D. and Titus, M. A., 1997. Myosin I overexpression impairs cell migration. J.
Cell Biol. 136: 633-647.
Novak, K. D. and Titus, M. A., 1998. The myosin I SH3 domain and TEDS rule
phosphorylation site are required for in vivo function. Mol. Biol. Cell 9: 75-88.
Novak, K. D., Peterson, M. D., Reedy, M. C. and Titus, M. A., 1995. Dictyostelium
myosin I double mutants exhibit conditional defects in pinocytosis. J. Cell Biol. 131:
1205-1221.
Osherov, N., Yamashita, R. A., Chung, Y. S. and May, G. S., 1998. Structural
requirements for in vivo myosin I function in Aspergillus nidulans. J. Biol. Chem. 273:
27017-27025.
Ostap, E. M. and Pollard, T. D., 1996. Biochemical kinetic characterization of the
Acanthamoeba myosin-I ATPase. J. Cell Biol. 132: 1053-1060.
Paunola, E., Mattila, P. K. and Lappalainen, P., 2002. WH2 domain: a small, versatile
adapter for actin monomers. FEBS Lett. 513: 92-97.
Pollard, T. D., Blanchoin, L. and Mullins, R. D., 2000. Molecular mechanisms controlling
actin filament dynamics in nonmuscle cells. Ann. Rev. Biophys. Biomol. Struct. 29: 545-
576.
Pruyne, D., Evangelista, M., Yang, C., Bi, E., et al., 2002. Role of formins in actin
assembly: nucleation and barbed-end association. Science 297: 612-615.
Raposo, G., Cordonnier, M. N., Tenza, D., Menichi, B., et al., 1999. Association of myosin
I alpha with endosomes and lysosomes in mammalian cells. Mol. Biol. Cell 10: 1477-
1494.
Robinson, D. N. and Spudich, J. A., 2000. Dynacortin, a genetic link between equatorial
contractility and global shape control discovered by library complementation of a
Dictyostelium discoideum cytokinesis mutant. J. Cell Biol. 150: 823-838.
Schafer, D. A., 2002. Coupling actin dynamics and membrane dynamics during
endocytosis. Curr. Opin. Cell Biol. 14: 76-81.
Schwarz, E. C., Geissler, H. and Soldati, T. 1999. A potentially exhaustive screening
strategy reveals two novel divergent myosins in Dictyostelium. Cell Biochem. Biophys. 30:
413-435.
Schwarz, E., Neuhaus, E. M., Kistler, C., Henkel, A. W. and Soldati, T. 2000.
Dictyostelium myosin IK is involved in the maintenance of cortical tension and affects
motility and phagocytosis. J. Cell Sci. 113: 413-435.
