Diatom Gliding Motility. Группа авторов

Diatom Gliding Motility - Группа авторов


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J.D., Czarnecki, D.B., Valve morphogenesis in the pennate diatom Achnanthes coarctata. J. Phycol., 20, 563–573, 1984.

      [1.5] Callow, M.E., Callow, J.A., Pickett-Heaps, J.D., Wetherbee, R., Primary adhesion of Enteromorpha (Chlorophyta, Ulvales) propagules: Quantitative settlement studies and video microscopy. J. Phycol., 33, 6, 938–947, 1997.

      [1.6] Callow, M.E., Callow, J.A., Pickett-Heaps, J.D., Wetherbee, R., Primary adhesion of enteromorpha propagules. Phycologia, 36, 4, 15, 1997.

      [1.7] Cohn, S.A., Nash, J., Pickett-Heaps, J.D., The effect of drugs on diatom valve morphogenesis. Protoplasma, 149, 130–143, 1989.

      [1.8] Cohn, S.A. and Pickett-Heaps, J.D., The effects of colchicine and dinitrophenol on the in vivo rates of anaphase A and B in the diatom Surirella. Eur. J. Cell Biol., 46, 3, 523–530, 1988.

      [1.9] Cohn, S.A., Schoeller, A., Spurck, T.P., Pickett-Heaps, J.D., Edgar, L.E., Sexual reproduction in the pennate diatom Navicula cuspidata. II. Auxo spore development and initial cell formation. J. Phycol., 20, Suppl, 27, 1984.

      [1.10] Cohn, S.A., Spurck, T.P., Pickett-Heaps, J.D., High energy irradiation at the leading tip of moving diatoms causes a rapid change of cell direction. Diatom Res., 14, 2, 193–206, 1999.

      [1.11] Cohn, S.A., Spurck, T.P., Pickett-Heaps, J.D., Edgar, L.A., Perizonium and initial valve formation in the diatom Navicula cuspidata (Bacillariophyceae). J. Phycol., 25, 15–26, 1989.

      [1.12] Cohn, S.A., Weitzell, R.E., Spurck, T.P., Pickett-Heaps, J.D., Characterization of motility and adhesion in pennate diatoms. Mol. Biol. Cell, 6, Suppl. S, 261a, 1995.

      [1.13] Coss, R.A., Bloodgood, R.A., Brower, D.L., Pickett-Heaps, J.D., MacIntosh, J.R., Studies on the mechanism of action of isopropyl N phenyl carbamate. Exp. Cell Res., 92, 2, 394–398, 1975.

      [1.15] Coss, R.A. and Pickett-Heaps, J.D., The effects of isopropyl N phenyl carbamate on the green alga Oedogonium cardiacum. I. Cell division. J. Cell Biol., 63, 1, 84–98, 1974.

      [1.16] Crawford, R., Round, F., Pickett-Heaps, J., Johnson, A., Obituary: Lesley Ann Edgar (1955-2006). Diatom Res., 22, 1, 237–240, 2007.

      [1.17] Crawford, S., Chiovitti, T., Pickett-Heaps, J., Wetherbee, R., Micromorphogenesis during diatom wall formation produces siliceous nanostructures with different properties. J. Phycol., 45, 6, 1353–1362, 2009.

      [1.18] Crawford, S.A., Chiovitti, A., Pickett-Heaps, J., Wetherbee, R., Micromorphpogeneis during diatom wall formation produces siliceous nanostructures with different properties. J. Phycol., 45, 6, 1353–1362, 2009.

      [1.19] Edgar, L.A. and Pickett-Heaps, J.D., Ultrastructural localisation of polysaccharides in the motile diatom Navicula cuspidata. Protoplasma, 113, 10–22, 1982.

      [1.20] Edgar, L.A. and Pickett-Heaps, J.D., The mechanism of diatom locomotion. I. An ultrastructural study of the motility apparatus. Proc. R. Soc. B: Biol. Sci., 218, 331–343, 1983.

      [1.21] Edgar, L.A. and Pickett-Heaps, J.D., Diatom locomotion. Prog. Phycol. Res., 3, 47–88, 1984.

      [1.22] Edgar, L.A. and Pickett-Heaps, J.D., Valve morphogenesis in the pennate diatom Navicula cuspidata. J. Phycol., 20, 47–61, 1984.

      [1.23] Forer, A. and Pickett-Heaps, J., Fibrin clots keep non adhering living cells in place on glass for perfusion or fixation. Cell Biol. Int., 29, 9, 721–730, 2005.

      [1.24] Forer, A. and Pickett-Heaps, J., Precocious (pre anaphase) cleavage furrows in Mesostoma spermatocytes. Eur. J. Cell Biol., 89, 8, 607–618, 2010.

      [1.25] Forer, A. and Pickett-Heaps, J.D., Checkpoint control in crane fly spermatocytes: Unattached chromosomes induced by cytochalasin D or latrunculin treatment do not prevent or delay the start of anaphase. Protoplasma, 203, 100–111, 1998.

      [1.26] Forer, A. and Pickett-Heaps, J.D., Cytochalasin D and latrunculin affect chromosome behaviour during meiosis in crane fly spermatocytes. Chromosome Res., 6, 7, 533–549, 1998.

      [1.27] Forer, A., Pickett-Heaps, J.D., Spurck, T., What generates flux of tubulin in kinetochore microtubules? Protoplasma, 232, 3-4, 137–141, 2008.

      [1.28] Forer, A., Spurck, T., Pickett-Heaps, J.D., Ultraviolet microbeam irradiations of spindle fibres in crane fly spermatocytes and newt epithelial cells: resolution of previously conflicting observations. Protoplasma, 197, 230–240, 1997.

      [1.29] Forer, A., Spurck, T., Pickett-Heaps, J.D., Actin and myosin inhibitors block elongation of kinetochore fibre stubs in metaphase crane fly spermatocytes. Protoplasma, 232, 1-2, 79–85, 2007.

      [1.30] Forer, A., Spurck, T., Pickett-Heaps, J.D., Wilson, P.J., Structure of kinetochore fibres in crane fly spermatocytes after irradiation with an ultraviolet microbeam: Neither microtubules nor actin filaments remain in the irradiated region. Cell Motil. Cytoskeleton, 56, 3, 173–192, 2003.

      [1.31] Fowke, L.C. and Pickett-Heaps, J.D., Electron microscope study of vegetative cell division in two species of Marchantia. Can. J. Bot.-Revue Can. Botanique, 56, 5, 467–475, 1978.

      [1.32] Hepler, P.K., Pickett-Heaps, J.D., Gunning, B.E.S., Some retrospectives on early studies of plant microtubules. Plant J., 75, 2, 189–201, 2013.

      [1.33] Hinz, I., Spurck, T.P., Pickett-Heaps, J.D., Metabolic inhibitors and mitosis. III. Effects of dinitrophenol on spindle disassembly in Pinnularia. Protoplasma, 132, 1-2, 85–89, 1986.

      [1.34] Hoffman, L.R., Vesk, M., Pickett-Heaps, J.D., The cytology and ultrastructure of zoospores of Hydrurus foetidus (Chrysophyceae). Nord. J. Bot., 6, 1, 105–122, 1986.

      [1.36] Leslie, R.J. and Pickett-Heaps, J.D., Ultraviolet microbeam studies of diatom mitosis. J. Cell Biol., 91, 2, A311, 1981.

      [1.37] Leslie, R.J. and Pickett-Heaps, J.D., Ultraviolet microbeam irradiations of mitotic diatoms: Investigation of spindle elongation. J. Cell Biol., 96, 2, 548–561, 1983.

      [1.38] Leslie, R.J. and Pickett-Heaps, J.D., Spindle microtubule dynamics following ultraviolet microbeam irradiations of mitotic diatoms. Cell, 36, 3, 717–727, 1984.

      [1.39] Marchant, H.J. and Pickett-Heaps, J.D., Ultrastructure and differentiation of Hydrodictyon reticulatum. I. Mitosis in the coenobium. Aust. J. Biol. Sci., 23, 6, 1173–1186, 1970.

      [1.40] Marchant, H.J. and Pickett-Heaps, J.D., Ultrastructure and differentiation of Hydrodictyon reticulatum. II. Formation of zooids within the coenobium. Aust. J. Biol. Sci., 24, 3, 471–486, 1971.

      [1.41] Marchant, H.J. and Pickett-Heaps, J.D., Ultrastructure and differentiation of Hydrodictyon reticulatum. III. Formation of vegetative daughter net. Aust. J. Biol. Sci., 25, 2, 265–278, 1972.

      [1.42] Marchant, H.J. and Pickett-Heaps, J.D., Ultrastructure and differentiation of Hydrodictyon reticulatum. IV. Conjugation of gametes and development of zygospores and azygospores. Aust. J. Biol. Sci., 25, 2, 279–292, 1972.

      [1.43] Marchant, H.J. and Pickett-Heaps, J.D., Ultrastructure and differentiation of Hydrodictyon reticulatum. V. Development of polyhedra. Aust. J. Biol. Sci., 25, 6, 1187–1197, 1972.

      [1.44] Marchant, H.J. and Pickett-Heaps, J.D., Ultrastructure and differentiation of Hydrodictyon reticulatum. VI. Formation of germ net. Aust. J. Biol. Sci.,


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