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Summary Anatomy Item Literature (66) Expression Attributions Wiki
ECB-ANAT-45

Papers associated with cleavage furrow

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The ultrastructural organization of actin and myosin II filaments in the contractile ring: new support for an old model of cytokinesis., Henson JH., Mol Biol Cell. March 1, 2017; 28 (5): 613-623.              

Centralspindlin in Rappaport''s cleavage signaling., Mishima M., Semin Cell Dev Biol. May 1, 2016; 53 45-56.

How to make a static cytokinetic furrow out of traveling excitable waves., Goryachev AB., Small GTPases. April 2, 2016; 7 (2): 65-70.      

Central Spindle Self-Organization and Cytokinesis in Artificially Activated Sea Urchin Eggs., Henson JH., Biol Bull. April 1, 2016; 230 (2): 85-95.

The Mos-MAPK pathway regulates Diaphanous-related formin activity to drive cleavage furrow closure during polar body extrusion in starfish oocytes., Ucar H., J Cell Sci. November 15, 2013; 126 (Pt 22): 5153-65.

Roles for focal adhesion kinase (FAK) in blastomere abscission and vesicle trafficking during cleavage in the sea urchin embryo., Schumpert B., Mech Dev. January 1, 2013; 130 (4-5): 290-303.

Polar expansion during cytokinesis., Gudejko HF., Cytoskeleton (Hoboken). November 1, 2012; 69 (11): 1000-9.

Cell polarity emerges at first cleavage in sea urchin embryos., Alford LM., Dev Biol. June 1, 2009; 330 (1): 12-20.

Calyculin-A induces cleavage in a random plane in unfertilized sea urchin eggs., Goda M., Biol Bull. February 1, 2009; 216 (1): 40-4.

An agent-based model contrasts opposite effects of dynamic and stable microtubules on cleavage furrow positioning., Odell GM., J Cell Biol. November 3, 2008; 183 (3): 471-83.        

In vivo phosphorylation of regulatory light chain of myosin II in sea urchin eggs and its role in controlling myosin localization and function during cytokinesis., Uehara R., Cell Motil Cytoskeleton. February 1, 2008; 65 (2): 100-15.

Interaction between EB1 and p150glued is required for anaphase astral microtubule elongation and stimulation of cytokinesis., Strickland LI., Curr Biol. December 20, 2005; 15 (24): 2249-55.

Movement of membrane domains and requirement of membrane signaling molecules for cytokinesis., Ng MM., Dev Cell. December 1, 2005; 9 (6): 781-90.

Induction of cytokinesis is independent of precisely regulated microtubule dynamics., Strickland LI., Mol Biol Cell. October 1, 2005; 16 (10): 4485-94.

A microtubule-dependent zone of active RhoA during cleavage plane specification., Bement WM., J Cell Biol. July 4, 2005; 170 (1): 91-101.              

Selective expression of a sec1/munc18 member in sea urchin eggs and embryos., Leguia M., Gene Expr Patterns. October 1, 2004; 4 (6): 645-57.

An IQGAP-like protein is involved in actin assembly together with Cdc42 in the sea urchin egg., Nishimura Y., Cell Motil Cytoskeleton. December 1, 2003; 56 (4): 207-18.

Why does a cleavage plane develop parallel to the spindle axis in conical sand dollar eggs? A key question for clarifying the mechanism of contractile ring positioning., Yoshigaki T., J Theor Biol. March 21, 2003; 221 (2): 229-44.

Targeted new membrane addition in the cleavage furrow is a late, separate event in cytokinesis., Shuster CB., Proc Natl Acad Sci U S A. March 19, 2002; 99 (6): 3633-8.

Response of the cortex to the mitotic apparatus during polar body formation in the starfish oocyte of Asterina pectinifera., Hamaguchi Y., Cell Struct Funct. December 1, 2001; 26 (6): 627-31.

[Serotoninergic processes in cells of early embryos of the sea urchin Paracentrotus lividus]., Shmukler IuB., Ross Fiziol Zh Im I M Sechenova. November 1, 2001; 87 (11): 1557-64.

Three-dimensional Analysis of Laser Scanning Confocal Microscope Sections Reveals an Array of Microtubules in the Cleavage Furrow of Sea Urchin Eggs., Larkin K., Microsc Microanal. May 1, 2001; 7 (3): 265-275.

Simulation of the mechanism of determining the position of the cleavage furrow in cytokinesis of sea urchin eggs., Yoshigaki T., Math Biosci. March 1, 2001; 170 (1): 17-58.

Effect of calyculin A on the surface structure of unfertilized sea urchin eggs., Tosuji H., Cell Motil Cytoskeleton. June 1, 2000; 46 (2): 129-36.

Parameters that specify the timing of cytokinesis., Shuster CB., J Cell Biol. September 6, 1999; 146 (5): 981-92.              

Action of serotonin antagonists on cytoplasmic calcium levels in early embryos of sea urchin Lytechinus pictus., Shmukler YB., Int J Dev Biol. March 1, 1999; 43 (2): 179-82.

Localization of Rho GTPase in sea urchin eggs., Nishimura Y., FEBS Lett. December 11, 1998; 441 (1): 121-6.

Centrosome-attracting body: a novel structure closely related to unequal cleavages in the ascidian embryo., Hibino T., Dev Growth Differ. February 1, 1998; 40 (1): 85-95.

Displacement of cleavage plane in the sea urchin egg by locally applied taxol., Hamaguchi Y., Cell Motil Cytoskeleton. January 1, 1998; 40 (3): 211-9.

Accumulation of WGA receptors in the cleavage furrow during cytokinesis of sea urchin eggs., Yoshigaki T., Exp Cell Res. November 1, 1997; 236 (2): 463-71.

Identification of actin-binding proteins from sea urchin eggs by F-actin affinity column chromatography., Terasaki AG., J Biochem. July 1, 1997; 122 (1): 226-36.

Rappaport rules: cleavage furrow induction in animal cells., Oegema K., Proc Natl Acad Sci U S A. May 13, 1997; 94 (10): 4817-20.

Cleavage furrow establishment by the moving mitotic apparatus., Rappaport R., Dev Growth Differ. April 1, 1997; 39 (2): 221-6.

Alteration of cell cycle timing and induction of surface instability in starfish blastomeres microinjected with antibodies to spectrin., Wong GK., Dev Biol. November 25, 1996; 180 (1): 199-212.

The orientation of first cleavage in the sea urchin embryo, Lytechinus variegatus, does not specify the axes of bilateral symmetry., Summers RG., Dev Biol. April 10, 1996; 175 (1): 177-83.

Immunolocalization of the heterotrimeric kinesin-related protein KRP(85/95) in the mitotic apparatus of sea urchin embryos., Henson JH., Dev Biol. September 1, 1995; 171 (1): 182-94.

Time-lapse confocal imaging of calcium dynamics in starfish embryos., Stricker SA., Dev Biol. August 1, 1995; 170 (2): 496-518.

Cleavage furrow: timing of emergence of contractile ring actin filaments and establishment of the contractile ring by filament bundling in sea urchin eggs., Mabuchi I., J Cell Sci. July 1, 1994; 107 ( Pt 7) 1853-62.

A rho-like protein is involved in the organisation of the contractile ring in dividing sand dollar eggs., Mabuchi I., Zygote. November 1, 1993; 1 (4): 325-31.

Calyculin A induces contractile ring-like apparatus formation and condensation of chromosomes in unfertilized sea urchin eggs., Tosuji H., Proc Natl Acad Sci U S A. November 15, 1992; 89 (22): 10613-7.

Mapping the binding domain of a myosin II binding protein., Walker G., Biochemistry. October 22, 1991; 30 (42): 10206-10.

Microinjection of the monoclonal anti-tubulin antibody YL1/2 inhibits cleavage of sand dollar eggs., Oka MT., Cell Struct Funct. December 1, 1990; 15 (6): 373-8.

Isolation, characterization, and immunochemical properties of a giant protein from sea urchin egg cytomatrix., Pudles J., Exp Cell Res. August 1, 1990; 189 (2): 253-60.

Propranolol, a beta-adrenergic receptor blocker, affects microfilament organization, but not microtubules, during the first division in sea urchin eggs., Nicotra A., Cell Motil Cytoskeleton. January 1, 1990; 16 (3): 182-9.

Cleavage furrow formation and actin-modulating proteins., Mabuchi I., Ann N Y Acad Sci. January 1, 1990; 582 131-46.

Tubulin polymerization in unfertilized sea-urchin eggs induced by elevated temperature., Harris PJ., J Cell Sci. May 1, 1989; 93 ( Pt 1) 9-17.

Induction of achromosomal cleavage by hydroxyurea in starfish embryo and the reversal by a combination of deoxyadenosine and deoxycytidine: possible involvement of salvage pathway for deoxynucleoside triphosphate biosynthesis in the presence of hydroxyurea., Yamada H., J Cell Physiol. August 1, 1988; 136 (2): 326-32.

Localization and possible function of 20 kDa actin-modulating protein (actolinkin) in the sea urchin egg., Ishidate S., Eur J Cell Biol. June 1, 1988; 46 (2): 275-81.

A high molecular weight actin binding protein: its localization in the cortex of the sea urchin egg., Maekawa S., Exp Cell Res. October 1, 1987; 172 (2): 340-53.

[Morphogenetic role of the cortex in the development of twins in sea urchins]., Drozdov AL., Ontogenez. January 1, 1987; 18 (5): 540-6.

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