Adams, R. R., Tavares, A. A., Salzberg, A., Bellen, H. J. and Glover, D. M (1998). pavarotti encodes a kinesin-like protein required to organize the central spindle and contractile ring for cytokinesis. Genes Dev 15, 1483-1494.
Afshar, K., Gish, B. and Wasserman, S. A (1999). Functional characterization of the diaphanous formin homology protein during cell division and early development in Drosophila. Molec. Biol. Cell 10, 384-.
Baker, J., Theurkauf, W. E. and Schubiger, G (1993). Dynamic changes in microtubule configuration correlate with nuclear migration in the preblastoderm Drosophila embryo. J. Cell Biol 122, 113-121.[Abstract/Free Full Text]
Bonaccorsi, S., Giansanti, M. G. and Gatti, M (1998). Spindle self-organization and cytokinesis during male meiosis in asterless mutants of Drosophila melanogaster. J. Cell Biol 142, 751-761.[Abstract/Free Full Text]
Cao, L. and Wang, Y (1990). Mechanism of the formation of contractile ring in dividing cultured animal cells. I. Recruitment of preexisting actin filaments into the cleavage furrow. J. Cell Biol 110, 1089-1095.[Abstract/Free Full Text]
Cao, L. and Wang, Y (1990). Mechanism of the formation of contractile ring in dividing cultured animal cells. II. Cortical movement of microinjected actin filaments. J. Cell Biol 111, 1905-1911.[Abstract/Free Full Text]
Carmena, M., Riparbelli, M. G., Tavares, A. M., Adams, R., Callaini, G. and Glover, D. M (1998). Drosophila polo kinase is required for cytokinesis. J. Cell Biol 143, 659-672.[Abstract/Free Full Text]
Castrillon, D. H. and Wasserman, S. A (1994). Diaphanous is required for cytokinesis in Drosophila and shares domains of similarity with the products of the limb deformity gene. Development 120, 3367-3377.[Abstract]
Cheney, R. E., O'Shea, M. K., Heuser, J. E., Coelho, M. V., Wolenski, J. S., Espreafico, E. M., Forscher, P., Larson, R. E. and Mooseker, M. S (1993). Brain myosin-V is a two-headed unconventional myosin with motor activity [see comments]. Cell 75, 13-23.[Medline]
Dan, K (1954). The cortical movement in Arbacia punctulata eggs through cleavage cycles. Embryologia 2, 115-122.
Egelhoff, T. T., Lee, R. J. and Spudich, J. A (1993). Dictyostelium myosin heavy chain phosphorylation sites regulate myosin filament assembly and localization in vivo. Cell 75, 363-371.[Medline]
Field, C. M. and Alberts, B. A (1995). Anillin, a contractile ring protein that cycles from the nucleus to the cell cortex. J. Cell Biol 131, 165-178.[Abstract/Free Full Text]
Fishkind, D. J., Silverman, J. D. and Wang, Y. L (1996). Function of spindle microtubules in directing cortical movement and actin filament organization in dividing cultured cells. J. Cell Sci 109, 2041-2051.[Abstract]
Foe, V. E. and Alberts, B. M (1983). Studies of nuclear and cytoplasmic behaviour during the five mitotic cycles that precede gastrulation in Drosophila embryogenesis. J. Cell Sci 61, 31-70.[Abstract]
Foe, V. E. and Alberts, B. M (1985). Reversible chromosome condensation induced in Drosophila embryos by anoxia: visualization of interphase nuclear organization. J. Cell Biol 100, 1623-1636.[Abstract/Free Full Text]
Hay, B., Jan, L. Y. and Jan, Y. N (1988). A protein component of Drosophila polar granules is encoded by vasa and has extensive sequence similarity to ATP-dependent helicases. Cell 55, 577-587.[Medline]
Henson, J. H., Begg, D. A., Beaulieu, S. M., Fishkind, D. J., Bonder, E. M., Terasaki, M., Lebeche, D. and Kaminer, B (1989). A calsequestrin-like protein in the endoplasmic reticulum of the sea urchin: localization and dynamics in the egg and first cell cycle embryo. J. Cell Biol 109, 149-161.[Abstract/Free Full Text]
Heuer, J. G., Li, K. and Kaufman, T. C (1995). The Drosophila homeotic target gene centrosomin (cnn) encodes a novel centrosomal protein with leucine zippers and maps to a genomic region required for midgut morphogenesis. Development 121, 3861-3876.[Abstract]
Horwitz, S. B., Lothstein, L., Manfredi, J. J., Mellado, W., Parness, J., Roy,S. N., Schiff, P. B., Sorbara, L. and Zeheb, R (1986). Taxol: mechanisms of action and resistance. Ann. NY Acad. Sci 466, 733-744.[Medline]
Huang, J. D., Brady, S. T., Richards, B. W., Stenolen, D., Resau, J. H., Copeland, N. G. and Jenkins, N. A (1999). Direct interaction of microtubule-and actin-based transport motors [see comments]. Nature 397, 267-270.[Medline]
Jordan, P. and Karess, R (1997). Myosin light chain-activating phosphorylation sites are required for oogenesis in Drosophila. J. Cell Biol 139, 1805-1819.[Abstract/Free Full Text]
Kalmes, A., Merdes, G., Neumann, B., Strand, D. and Mechler, B. M (1996). A serine-kinase associated with the p127-l(2)gl tumour suppressor of Drosophila may regulate the binding of p127 to nonmuscle myosin II heavy chain and the attachment of p127 to the plasma membrane. J. Cell Sci 109, 1359-1368.[Abstract]
Karr, T. L. and Alberts, B. M (1986). Organization of the cytoskeleton in early Drosophila embryos. J. Cell Biol 102, 1494-1509.[Abstract/Free Full Text]
Kellogg, D. R., Mitchison, T. J. and Alberts, B. M (1988). Behavior of microtubules and actin filaments in living Drosophila embryos. Development 103, 675-686.[Abstract/Free Full Text]
Ketchum, A. S., Stewart, C. T., Stewart, M. and Kiehart, D. P (1990). Complete sequence of the Drosophila nonmuscle myosin heavy-chain transcript: conserved sequences in the myosin tail and differential splicing in the 5' untranslated sequence. Proc. Natl Acad. Sci. USA 87, 6316-6320.[Abstract/Free Full Text]
Kiehart, D. P. and Feghali, R (1986). Cytoplasmic myosin from Drosophila melanogaster. J. Cell Biol 103, 1517-1525.[Abstract/Free Full Text]
Lajoie-Mazenc, I., Tollon, Y., Detraves, C., Julian, M., Moisand, A., Gueth-Hallonet, C., Debec, A., Salles-Passador, I., Puget, A., Mazarguil, H (1994). Recruitment of antigenic gamma-tubulin during mitosis in animal cells: presence of gamma-tubulin in the mitotic spindle. J. Cell Sci 107, 2825-2837.[Abstract]
Larabell, C. A., Rowning, B. A., Wells, J., Wu, M. and Gerhart, J. C (1996). Confocal microscopy analysis of living Xenopus eggs and the mechanism of cortical rotation. Development 122, 1281-1289.[Abstract]
Li, K. and Kaufman, T. C (1996). The homeotic target gene centrosomin encodes an essential centrosomal component. Cell 85, 585-596.[Medline]
Liang, W., Warrick, H. M. and Spudich, J. A (1999). A structural model for phosphorylation control of Dictyostelium myosin II thick filament assembly. J. Cell Biol 147, 1039-1048.[Abstract/Free Full Text]
Mabuchi, I (1986). Biochemical aspects of cytokinesis. Int. Rev. Cytol 101, 175-213.[Medline]
Matthies, H. J., McDonald, H. B., Goldstein, L. S. and Theurkauf, W. E (1996). Anastral meiotic spindle morphogenesis: role of the non-claret disjunctional kinesin-like protein. J. Cell Biol 134, 455-464.[Abstract/Free Full Text]
Megraw, T. L., Li, K., Kao, L. R. and Kaufman, T. C (1999). The centrosomin protein is required for centrosome assembly and function during cleavage in Drosophila. Development 126, 2829-2839.[Abstract]
Miller, K. G., Field, C. M. and Alberts, B. M (1989). Actin-binding proteins from Drosophila embryos: a complex network of interacting proteins detected by F-actin affinity chromatography. J. Cell Biol 109, 2963-2975.[Abstract/Free Full Text]
Miller, K. G., Field, C. M., Alberts, B. M. and Kellogg, D. R (1991). Use of actin filament and microtubule affinity chromatography to identify proteins that bind to the cytoskeleton. Methods Enzymol 196, 303-319.[Medline]
Miller, K. G. and Kiehart, D. P (1995). Fly division. J. Cell Biol 131, 1-5.[Free Full Text]
Neufeld, T. P. and Rubin, G. M (1994). The Drosophila peanut gene is required for cytokinesis and encodes a protein similar to yeast putative bud neck filament proteins. Cell 77, 371-379.[Medline]
Nigg, E. A (1998). Polo-like kinases: positive regulators of cell division from start to finish. Curr. Opin. Cell Biol 10, 776-783.[Medline]
Pasternak, C., Flicker, P. F., Ravid, S. and Spudich, J. A (1989). Intermolecular versus intramolecular interactions of Dictyostelium myosin: possible regulation by heavy chain phosphorylation. J. Cell Biol 109, 203-210.[Abstract/Free Full Text]
Peskin, C. S., Odell, G. M. and Oster, G. F (1993). Cellular motions and thermal fluctuations: the Brownian ratchet. Biophys J 65, 316-324.[Abstract/Free Full Text]
Pollard, T. D., Satterwhite, L., Cisek, L., Corden, J., Sato, M. and Maupin, P (1990). Actin and myosin biochemistry in relation to cytokinesis. Ann. NY Acad. Sci 582, 120-130.[Medline]
Postner, M. A., Miller, K. G. and Wieschaus, E. F (1992). Maternal effect mutations of the sponge locus affect actin cytoskeletal rearrangements in Drosophila melanogaster embryos. J. Cell Biol 119, 1205-1218.[Abstract/Free Full Text]
Raff, J. W. and Glover, D. M (1988). Nuclear and cytoplasmic mitotic cycles continue in Drosophila embryos in which DNA synthesis is inhibited with aphidicolin. J. Cell Biol 107, 2009-2019.[Abstract/Free Full Text]
Rankin, S. and Kirschner, M. W (1997). The surface contraction waves of Xenopus eggs reflect the metachronous cell-cycle state of the cytoplasm. Curr. Biol 7, 451-454.[Medline]
Rothwell, W. F., Fogarty, P., Field, C. M. and Sullivan, W (1998). Nuclear-fallout, a Drosophila protein that cycles from the cytoplasm to the centrosomes, regulates cortical microfilament organization. Development 125, 1295-1303.[Abstract]
Sabry, J. H., Moores, S. L., Ryan, S., Zang, J. H. and Spudich, J. A (1997). Myosin heavy chain phosphorylation sites regulate myosin localization during cytokinesis in live cells. Mol. Biol. Cell 8, 2605-2615.[Abstract/Free Full Text]
Satterwhite, L. L., Lohka, M. J., Wilson, K. L., Scherson, T. Y., Cisek, L. J., Corden, J. L. and Pollard, T. D (1992). Phosphorylation of myosin-II regulatory light chain by cyclin-p34cdc2: a mechanism for the timing of cytokinesis. J. Cell Biol 118, 595-605.[Abstract/Free Full Text]
Schejter, E. D. and Wieschaus, E (1993). Functional elements of the cytoskeleton in the early Drosophila embryo. Annu. Rev. Cell Biol 9, 67-99.
Schroeder, T. E (1981). The origin of cleavage forces in dividing eggs. A mechanism in two steps. Exp. Cell Res 134, 231-240.[Medline]
Schupbach, T. and Wieschaus, E (1989). Female sterile mutations on the second chromosome of Drosophila melanogaster. I. Maternal effect mutations. Genetics 121, 101-117.[Abstract/Free Full Text]
Sider, J. R., Mandato, C. A., Weber, K. L., Zandy, A. J., Beach, D., Finst, R. J., Skoble, J. and Bement, W. M (1999). Direct observation of microtubule-f-actin interaction in cell free lysates. J. Cell Sci 112, 1947-1956.[Abstract]
Smith, D. B. and Johnson, K. S (1988). Single-step purification of polypeptides expressed in Escherichia coli as fusions with glutathione S-transferase. Gene 67, 31-40.[Medline]
Strand, D., Jakobs, R., Merdes, G., Neumann, B., Kalmes, A., Heid, H. W., Husmann, I. and Mechler, B. M (1994). The Drosophila lethal(2)giant larvae tumor suppressor protein forms homo-oligomers and is associated with nonmuscle myosin II heavy chain. J. Cell Biol 127, 1361-1373.[Abstract/Free Full Text]
Sullivan, W., Minden, J. S. and Alberts, B. M (1990). daughterless-abo-like, a Drosophila maternal-effect mutation that exhibits abnormal centrosome separation during the late blastoderm divisions. Development 110, 311-323.[Abstract/Free Full Text]
Theriot, J. A. and Mitchison, T. J (1992). Comparison of actin and cell surface dynamics in motile fibroblasts. J. Cell Biol 119, 367-377.[Abstract/Free Full Text]
Tsukita, S. and Yonemura, S (1997). ERM proteins: head-to-tail regulation of actin-plasma membrane interaction. Trends Biochem. Sci 22, 53-58.[Medline]
Vaizel-Ohayon, D. and Schejter, E. D (1999). Mutations in centrosomin reveal requirements for centrosomal function during early Drosophila embryogenesis. Curr. Biol 9, 889-898.[Medline]
Vincent, J. P. and Gerhart, J. C (1987). Subcortical rotation in Xenopus eggs: an early step in embryonic axis specification. Dev. Biol 123, 526-539.[Medline]
von Dassow, G. and Schubiger, G (1994). How an actin network might cause fountain streaming and nuclear migration in the syncytial Drosophila embryo [published erratum appears in J. Cell Biol. 1995 Sep;130(5):1231-4]. J. Cell Biol 127, 1637-1653.[Abstract/Free Full Text]
Wang, Y., Silverman, J. D. and Cao, L (1994). Single particle tracking of surface receptor movement during cell division. J. Cell Biol 127, 963-971.[Abstract/Free Full Text]
Warn, R. M., Magrath, R. and Webb, S (1984). Distribution of F-actin during cleavage of the Drosophila syncytial blastoderm. J. Cell Biol 98, 156-162.[Abstract/Free Full Text]
Waterman-Storer, C. M. and Salmon, E (1999). Positive feedback interactions between microtubule and actin dynamics during cell motility. Curr. Opin. Cell Biol 11, 61-67.[Medline]
Wheatley, S. P. and Wang, Y (1996). Midzone microtubule bundles are continuously required for cytokinesis in cultured epithelial cells. J. Cell Biol 135, 981-989.[Abstract/Free Full Text]
White, J. G. and Borisy, G. G (1983). On the mechanisms of cytokinesis in animal cells. J. Theor. Biol 101, 289-316.[Medline]
Wolpert, L (1960). The mechanics and mechanism of cleavage. Int. Rev. Cytol 10, 163-216.
Yamakita, Y., Yamashiro, S. and Matsumura, F (1994). In vivo phosphorylation of regulatory light chain of myosin II during mitosis of cultured cells. J. Cell Biol 124, 129-137.[Abstract/Free Full Text]
Yasuda, G. K., Baker, J. and Schubiger, G (1991). Independent roles of centrosomes and DNA in organizing the Drosophila cytoskeleton. Development 111, 379-391.[Abstract]
Yumura, S. and Uyeda, T. Q (1997). Transport of myosin II to the equatorial region without its own motor activity in mitotic Dictyostelium cells. Mol. Biol. Cell 8, 2089-2099.[Abstract/Free Full Text]
Yumura, S. and Uyeda, T. Q (1997). Myosin II can be localized to the cleavage furrow and to the posterior region of Dictyostelium amoebae without control by phosphorylation of myosin heavy and light chains. Cell Motil. Cytoskeleton 36, 313-322.[Medline]
Zang, J. H. and Spudich, J. A (1998). Myosin II localization during cytokinesis occurs by a mechanism that does not require its motor domain. Proc. Natl. Acad. Sci.USA 95, 13652-13657.[Abstract/Free Full Text]
