Papers associated with cortical granule

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	Two-pore channels function in calcium regulation in sea star oocytes and embryos., Ramos I., Development. December 1, 2014; 141 (23): 4598-609.
	Conservation of sequence and function in fertilization of the cortical granule serine protease in echinoderms., Oulhen N., Biochem Biophys Res Commun. August 1, 2014; 450 (3): 1135-41.
	Allergen analysis of sea urchin roe using sera from five patients., Tanaka K., Int Arch Allergy Immunol. January 1, 2014; 164 (3): 222-7.
	Critical role of cortical vesicles in dissecting regulated exocytosis: overview of insights into fundamental molecular mechanisms., Abbineni PS., Biol Bull. August 1, 2013; 224 (3): 200-17.
	Diversity in the fertilization envelopes of echinoderms., Oulhen N., Evol Dev. January 1, 2013; 15 (1): 28-40.
	Anionic lipids in Ca(2+)-triggered fusion., Rogasevskaia TP., Cell Calcium. January 1, 2012; 52 (3-4): 259-69.
	Effects of ionomycin on egg activation and early development in starfish., Vasilev F., PLoS One. January 1, 2012; 7 (6): e39231.
	The biphasic increase of PIP2 in the fertilized eggs of starfish: new roles in actin polymerization and Ca2+ signaling., Chun JT., PLoS One. November 23, 2010; 5 (11): e14100.
	Dissecting the mechanism of Ca2+-triggered membrane fusion: probing protein function using thiol reactivity., Furber KL., Clin Exp Pharmacol Physiol. February 1, 2010; 37 (2): 208-17.
	Ca(2+) signaling occurs via second messenger release from intraorganelle synthesis sites., Davis LC., Curr Biol. October 28, 2008; 18 (20): 1612-8.
	Actin cytoskeleton modulates calcium signaling during maturation of starfish oocytes., Kyozuka K., Dev Biol. August 15, 2008; 320 (2): 426-35.
	Two independent forms of endocytosis maintain embryonic cell surface homeostasis during early development., Covian-Nares JF., Dev Biol. April 1, 2008; 316 (1): 135-48.
	Alteration of the cortical actin cytoskeleton deregulates Ca2+ signaling, monospermic fertilization, and sperm entry., Puppo A., PLoS One. January 1, 2008; 3 (10): e3588.
	Fertilization and nicotinic acid adenine dinucleotide phosphate induce pH changes in acidic Ca(2+) stores in sea urchin eggs., Morgan AJ., J Biol Chem. December 28, 2007; 282 (52): 37730-7.
	Rho, Rho-kinase, and the actin cytoskeleton regulate the Na+ -H+ exchanger in sea urchin eggs., Rangel-Mata F., Biochem Biophys Res Commun. January 5, 2007; 352 (1): 264-9.
	A comparative analysis of molecular mechanisms for blocking polyspermy: identification of a lectin-ligand binding reaction in mammalian eggs., Hedrick JL., Soc Reprod Fertil Suppl. January 1, 2007; 63 409-19.
	Rendezvin: An essential gene encoding independent, differentially secreted egg proteins that organize the fertilization envelope proteome after self-association., Wong JL., Mol Biol Cell. December 1, 2006; 17 (12): 5241-52.
	Synaptotagmin I is involved in the regulation of cortical granule exocytosis in the sea urchin., Leguia M., Mol Reprod Dev. July 1, 2006; 73 (7): 895-905.
	Nutritive phagocyte incubation chambers provide a structural and nutritive microenvironment for germ cells of Strongylocentrotus droebachiensis, the green sea urchin., Walker CW., Biol Bull. August 1, 2005; 209 (1): 31-48.
	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.
	Regulated proteolysis by cortical granule serine protease 1 at fertilization., Haley SA., Mol Biol Cell. May 1, 2004; 15 (5): 2084-92.
	Membrane fusion of secretory vesicles of the sea urchin egg in the absence of NSF., Whalley T., J Cell Sci. May 1, 2004; 117 (Pt 11): 2345-56.
	A Rho-signaling pathway mediates cortical granule translocation in the sea urchin oocyte., Covián-Nares F., Mech Dev. March 1, 2004; 121 (3): 225-35.
	Major components of a sea urchin block to polyspermy are structurally and functionally conserved., Wong JL., Evol Dev. January 1, 2004; 6 (3): 134-53.
	A Rho GTPase controls the rate of protein synthesis in the sea urchin egg., Manzo S., Biochem Biophys Res Commun. October 24, 2003; 310 (3): 685-90.
	Perivitelline space: does it play a role in blocking polyspermy in mammals?, Talbot P., Microsc Res Tech. July 1, 2003; 61 (4): 349-57.
	Regulated secretion: SNARE density, vesicle fusion and calcium dependence., Coorssen JR., J Cell Sci. May 15, 2003; 116 (Pt 10): 2087-97.
	Mastoparan induces Ca2+-independent cortical granule exocytosis in sea urchin eggs., López-Godínez J., Biochem Biophys Res Commun. January 31, 2003; 301 (1): 13-6.
	Cortical granule translocation is microfilament mediated and linked to meiotic maturation in the sea urchin oocyte., Wessel GM., Development. September 1, 2002; 129 (18): 4315-25.
	Low pH inhibits compensatory endocytosis at a step between depolarization and calcium influx., Smith RM., Traffic. June 1, 2002; 3 (6): 397-406.
	NAADP+ initiates the Ca2+ response during fertilization of starfish oocytes., Lim D., FASEB J. October 1, 2001; 15 (12): 2257-67.
	Plasma membrane resident ''fusion complexes'' mediate reconstituted exocytosis., Ikebuchi Y., Traffic. September 1, 2001; 2 (9): 654-67.
	Calcium and the control of mammalian cortical granule exocytosis., Abbott AL., Front Biosci. July 1, 2001; 6 D792-806.
	p62/p56 are cortical granule proteins that contribute to formation of the cortical granule envelope and play a role in mammalian preimplantation development., Hoodbhoy T., Mol Reprod Dev. May 1, 2001; 59 (1): 78-89.
	SFE1, a constituent of the fertilization envelope in the sea urchin is made by oocytes and contains low-density lipoprotein-receptor-like repeats., Wessel GM., Biol Reprod. December 1, 2000; 63 (6): 1706-12.
	Relationship between p62 and p56, two proteins of the mammalian cortical granule envelope, and hyalin, the major component of the echinoderm hyaline layer, in hamsters., Hoodbhoy T., Biol Reprod. April 1, 2000; 62 (4): 979-87.
	Exocytotic insertion of calcium channels constrains compensatory endocytosis to sites of exocytosis., Smith RM., J Cell Biol. February 21, 2000; 148 (4): 755-67.
	Sea urchin egg preparations as systems for the study of calcium-triggered exocytosis., Zimmerberg J., J Physiol. October 1, 1999; 520 Pt 1 15-21.
	The cortical granule serine protease CGSP1 of the sea urchin, Strongylocentrotus purpuratus, is autocatalytic and contains a low-density lipoprotein receptor-like domain., Haley SA., Dev Biol. July 1, 1999; 211 (1): 1-10.
	Cortical granule translocation during maturation of starfish oocytes requires cytoskeletal rearrangement triggered by InsP3-mediated Ca2+ release., Santella L., Exp Cell Res. May 1, 1999; 248 (2): 567-74.
	Identification of PLCgamma-dependent and -independent events during fertilization of sea urchin eggs., Carroll DJ., Dev Biol. February 15, 1999; 206 (2): 232-47.
	Effects of spaceflight conditions on fertilization and embryogenesis in the sea urchin Lytechinus pictus., Schatten H., Cell Biol Int. January 1, 1999; 23 (6): 407-15.
	Biochemical and functional studies of cortical vesicle fusion: the SNARE complex and Ca2+ sensitivity., Coorssen JR., J Cell Biol. December 28, 1998; 143 (7): 1845-57.
	rab3 mediates cortical granule exocytosis in the sea urchin egg., Conner S., Dev Biol. November 15, 1998; 203 (2): 334-44.
	Cortical granule exocytosis is triggered by different thresholds of calcium during fertilisation in sea urchin eggs., Matese JC., Zygote. February 1, 1998; 6 (1): 55-64, 65a.
	Members of the SNARE hypothesis are associated with cortical granule exocytosis in the sea urchin egg., Conner S., Mol Reprod Dev. September 1, 1997; 48 (1): 106-18.
	Probable participation of phospholipase A2 reaction in the process of fertilization-induced activation of sea urchin eggs., Kamata Y., Dev Growth Differ. August 1, 1997; 39 (4): 419-28.
	Regulated exocytosis and sequential construction of the extracellular matrix surrounding the sea urchin zygote., Matese JC., Dev Biol. June 1, 1997; 186 (1): 16-26.
	Cortical granules of the sea urchin translocate early in oocyte maturation., Berg LK., Development. May 1, 1997; 124 (9): 1845-50.
	Poisson-distributed active fusion complexes underlie the control of the rate and extent of exocytosis by calcium., Vogel SS., J Cell Biol. July 1, 1996; 134 (2): 329-38.

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