Sperm extract injection into ascidian eggs signals Ca(2+) release by the same pathway as fertilization

QUICK SEARCH:

[advanced]

	Author:		Keyword(s):

Home Help Feedback Subscriptions Archive Search Table of Contents

This Article

	Summary
	Full Text (PDF)
	Alert me when this article is cited
	Alert me if a correction is posted

Services

	Email this article to a friend
	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new issues of the journal
	Download to citation manager


Citing Articles

	Citing Articles via HighWire
	Citing Articles via Google Scholar

Google Scholar

	Articles by Runft, L. L.
	Articles by Jaffe, L. A.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Runft, L. L.
	Articles by Jaffe, L. A.

Abassi, Y. A., Carroll, D. J., Giusti, A. F., Belton, R. J. and Foltz, K. R (2000). Evidence that Src-type tyrosine kinase activity is necessary for initiation of Ca2+release at fertilization in sea urchin eggs. Dev. Biol 218, 206-219.[Medline]

Albrieux, M., Sardet, C. and Villaz, M (1997). The two intracellular Ca2+release channels, ryanodine receptor and inositol 1,4,5-trisphosphate receptor, play different roles during fertilization in ascidians. Dev. Biol 189, 174-185.[Medline]

Arkinstall, S., Payton, M. and Maundrell, K (1995). Activation of phospholipase Cin Schizosaccharomyces pombe by coexpression of receptor or nonreceptor tyrosine kinases. Mol. Cell Biol 15, 1431-1438.[Abstract]

Bae, Y. S., Cantley, L. G., Chen, C. S., Kim, S. R., Kwon, K. S. and Rhee, S. G (1998). Activation of phospholipase C-by phosphatidylinositol 3,4,5-trisphosphate. J. Biol. Chem 273, 4465-4469.[Abstract/Free Full Text]

Boerner, R. J., Kassel, D. B., Barker, S. C., Ellis, B., DeLacy, P. and Knight, W. B (1996). Correlation of the phosphorylation states of pp60c-srcwith tyrosine kinase activity: The intramolecular pY530-SH2 complex retains significant activity if Y419 is phosphorylated. Biochemistry 35, 9519-9525.[Medline]

Bootman, M. D., Berridge, M. J. and Lipp, P (1997). Cooking with calcium: the recipes for composing global signals from elementary events. Cell 91, 367-373.[Medline]

Brown, M. T. and Cooper, J. A (1996). Regulation, substrates and functions of src. Biochim. Biophys. Acta 1287, 121-149.[Medline]

Carroll, D. J. and Jaffe, L. A (1995). Proteases stimulate fertilization-like responses in starfish eggs. Dev. Biol 170, 690-700.[Medline]

Carroll, D. J., Ramarao, C. S., Mehlmann, L. M., Roche, S., Terasaki, M. and Jaffe, L. A (1997). Calcium release at fertilization in starfish eggs is mediated by phospholipase C. J. Cell Biol 138, 1303-1311.[Abstract/Free Full Text]

Carroll, D. J., Albay, D. T., Terasaki, M., Jaffe, L. A. and Foltz, K. R (1999). Identification of PLC-dependent and independent events during fertilization of sea urchin eggs. Dev. Biol 206, 232-257.[Medline]

Chiba, K., Kado, R. T. and Jaffe, L. A (1990). Development of calcium release mechanisms during starfish oocyte maturation. Dev. Biol 140, 300-306.[Medline]

Ciapa, B. and Whitaker, M (1986). Two phases of inositol polyphosphate and diacylglycerol production at fertilization. FEBS Lett 195, 347-351.[Medline]

Clements, J. S. and Koretzky, G. A (1999). Recent developments in lymphocyte activation: linking kinases to downstream signaling events. J. Clin. Invest 103, 925-929.[Medline]

Collas, P., Chang, T., Long, C. and Robl, J. M (1995). Inactivation of histone H1 kinase by Ca2+in rabbit oocytes. Mol. Reprod. Dev 40, 253-258.[Medline]

Creton, R. and Jaffe, L. F (1995). Role of calcium influx during the latent period in sea urchin fertilization. Dev. Growth Differ 37, 703-709.

Dale, B (1988). Primary and secondary messengers in the activation of ascidian eggs. Exp. Cell Res 177, 205-211.[Medline]

Dale, B., De Felice, L. J. and Ehrenstein, G (1985). Injection of soluble sperm extract into sea urchin eggs triggers the cortical reaction. Experientia 41, 1068-1070.[Medline]

De Santis, R. and Pinto, M. R (1991). Gamete self-discrimination in ascidians: A role for the follicle cells. Mol. Reprod. Dev 29, 47-50.[Medline]

Dupont, G., McGuinness, O. M., Johnson, M. H., Berridge, M. J. and Borgese, F (1996). Phospholipase C in mouse ooctyes: Characterization ofand isoforms and their possible involvement in sperm-induced Ca2+spiking. Biochem. J 316, 583-591.

Erpel, T. and Courtneidge, S (1995). Src family protein tyrosine kinases and cellular signal transduction pathways. Curr. Opin. Cell Biol 7, 176-182.[Medline]

Feng, G., Hui, C. and Pawson, T (1993). SH2-containing phospho-tyrosine phosphatase as a target of protein-tyrosine kinases. Science 259, 1607-1611.[Abstract/Free Full Text]

Flannery, B. and Epel, D (1998). Effects of wheat germ agglutinin on tunicate egg activation and fertilization: Is there a plasma membrane sperm receptor system on Ascidia ceratodes eggs?. Dev. Growth Differ 40, 297-306.[Medline]

Gish, G., Larose, L., Shen, R. and Pawson, T (1995). Biochemical analysis of SH2 domain-mediated protein interactions. Meth. Enzymol 254, 503-523.[Medline]

Giusti, A. F., Carroll, D. J., Abassi, Y. A. and Foltz, K. R (1999). Evidence that a starfish egg src family tyrosine kinase associates with PLC-1 SH2 domains at fertilization. Dev. Biol 208, 189-199.[Medline]

Giusti, A. F., Carroll, D. J., Abassi, Y. A., Terasaki, M., Foltz, K. R. and Jaffe, L. A (1999). Requirement of an Src family kinase for initiating calcium release at fertilization of starfish eggs. J. Biol. Chem 274, 29318-29322.[Abstract/Free Full Text]

Giusti, A. F., Xu, W., Hinkle, B., Terasaki, M. and Jaffe, L.A (2000). Evidence that fertilization activates starfish eggs by sequential activation of an Src-like kinase and phospholipase C. J. Biol. Chem 275, 16788-16794.[Abstract/Free Full Text]

Glahn, D., Mark, D. S., Behr, R. K. and Nuccitelli, R (1999). Tyrosine kinase inhibitors block sperm-induced egg activation in Xenopus laevis. Dev. Biol 205, 171-180.[Medline]

Goudeau, M. and Goudeau, H (1993). In the egg of the ascidian Phallusia mammillata , removal of external Ca2+modifies the fertilization potential, induces polyspermy, and blocks the resumption of meiosis. Dev. Biol 160, 165-177.[Medline]

Goudeau, H., Goudeau, M. and Guibourt, N (1992). The fertilization potential and associated membrane potential oscillations during the resumption of meiosis in the egg of the ascidian Phallusia mammillata. Dev. Biol 153, 227-241.[Medline]

Goudeau, H., Depresle, Y., Rosa, A. and Goudeau, M (1994). Evidence by a voltage clamp study of an electrically mediated block to polyspermy in the egg of the ascidian Phallusia mammillata. Dev. Biol 166, 489-501.[Medline]

Gould, M. and Stephano, J. L (1987). Electrical responses of eggs to acrosomal protein similar to those induced by sperm. Science 235, 1653-1656.

Hagar, R. E., Burgstahler, A. D., Nathanson, M. H. and Ehrlich, B. E (1998). Type III InsP3receptor channel stays open in the presence of increased calcium. Nature 396, 81-84.[Medline]

Hiramoto, Y (1962). Microinjection of live spermatozoa into sea urchin eggs. Exp. Cell Res 27, 416-426.

Jaffe, L. A., Gould-Somero, M. and Holland, L (1979). Ionic mechanism of the fertilization potential of the marine worm, Urechis caupo (Echiura). J. Gen. Physiol 73, 469-492.[Abstract/Free Full Text]

Johnson, S. A., Pleiman, C. M., Pao, L., Schneringer, J., Hippen, K. andCambier, J. C (1995). Phosphorylated immunoreceptor signaling motifs (ITAMs) exhibit unique abilities to bind and activate Lyn and Syk tyrosine kinases. J. Immunol 155, 4596-4603.[Abstract]

Jones, K. T, Soeller, C. and Cannell, M. B (1998). The passage of Ca2+and fluorescent markers between the sperm and egg after fusion in the mouse. Development 125, 4627-4635.[Abstract]

Kaji, K., Oda, S., Shikano, T., Ohnuki, T., Uematsu, Y., Sakagami, J., Tada, N., Miyazaki, S. and Kudo, A (2000). The gamete fusion process is defective in eggs of Cd9-deficient mice. Nature Genet 24, 279-282.[Medline]

Kiehart, D. P (1982). Microinjection of echinoderm eggs: Apparatus and procedures. Meth. Cell Biol 25, 13-31.

Kline, D. and Kline, J. T (1992). Repetitive calcium transients and the role of calcium in exocytosis and cell cycle activation in the mouse egg. Dev. Biol 149, 80-89.[Medline]

Kline, D., Mehlmann, L., Fox, C. and Terasaki, M (1999). The cortical endoplasmic reticulum (ER) of the mouse egg: localization of ER clusters in relation to the generation of repetitive calcium waves. Dev. Biol 215, 431-442.[Medline]

Kyozuka, K., Deguchi, R., Mohri, T. and Miyazaki, S (1998). Injection of sperm extract mimics spatiotemporal dynamics of Ca2+responses and progression of meiosis at fertilization of ascidian oocytes. Development 125, 4099-4105.[Abstract]

Lee, S. J. and Shen, S. S (1998). The calcium transient in sea urchin eggs during fertilization requires the production of inositol 1,4,5-trisphosphate. Dev. Biol 193, 195-208.[Medline]

Levasseur, M. and McDougall, A (2000). Sperm-induced calcium oscillations at fertilisation in ascidians are controlled by cyclin B1-dependent kinase activity. Development 127, 631-641.[Abstract]

McCulloh, D. H. and Chambers, E. L (1992). Fusion of membranes during fertilization: Increases of sea urchin egg's membrane capacitance and membrane conductance at the site of contact with the sperm. J. Gen. Physiol 99, 137-175.[Abstract/Free Full Text]

McDougall, A. and Levasseur, M (1998). Sperm-triggered calcium oscillations during meiosis in ascidian oocytes first pause, restart, then stop: correlations with cell cycle kinase activity. Development 125, 4451-4459.[Abstract]

McDougall, A. and Sardet, C (1995). Function and characteristics of repetitive calcium waves associated with meiosis. Curr. Biol 5, 318-328.[Medline]

Mehlmann, L. M., Carpenter, G., Rhee, S. G. and Jaffe, L. A (1998). SH2 domain-mediated activation of phospholipase Cis not required to initiate Ca2+release at fertilization of mouse eggs. Dev. Biol 203, 221-232.[Medline]

Melford, S. K., Turner, M., Briddon, S. J., Tybulewicz, V. L. J. and Watson, S. P (1997). Syk and fyn are required by mouse megakaryocytes for the rise in intracellular calcium induced by a collagen-related peptide. J. Biol. Chem 272, 27539-27542.[Abstract/Free Full Text]

Miyazaki, S., Yuzaki, M., Nakada, K., Shirakawa, H., Nakanishi, S., Nakade, S. and Mikoshiba, K (1992). Block of Ca2+wave and Ca2+oscillation by antibody to the inositol 1,4,5-trisphosphate receptor in fertilized hamster eggs. Science 257, 251-255.[Abstract/Free Full Text]

Miyazaki, S., Shirakawa, H., Nakada, K. and Honda, Y (1993). Essential role of the inositol 1,4,5-trisphosphate receptor/Ca2+release channel in Ca2+waves and Ca2+oscillations at fertilization of mammalian eggs. Dev. Biol 158, 62-78.[Medline]

Mizote, A., Okamoto, S. and Iwao, Y (1999). Activation of Xenopus eggs by proteases: possible involvement of a sperm protease in fertilization. Dev. Biol 208, 79-92.[Medline]

Mohri, T., Ivonnet, P. I. and Chambers, E. L (1995). Effect on sperm-induced activation current and increase of cytosolic Ca2+by agents that modify the mobilization of [Ca2+]i. I. Heparin and pentosan polysulfate. Dev. Biol 172, 139-157.[Medline]

Nuccitelli, R., Yim, D. L. and Smart, T (1993). The sperm-induced Ca2+wave following fertilization of the Xenopus egg requires the production of Ins(1,4,5)P3. Dev. Biol 158, 200-212.[Medline]

Oda, S., Deguchi, R., Mohri, T., Shikano, T., Nakanishi, S. and Miyazaki, S (1999). Spatiotemporal dynamics of the [Ca2+] rise induced by microinjection of sperm extract into mouse eggs: Preferential induction of a Ca2+wave from the cortex mediated by the inositol 1,4,5-trisphosphate receptor. Dev. Biol 209, 172-185.[Medline]

Perry, A. C. F., Wakayama, T., Cooke, I. M. and Yanagimachi, R (2000). Mammalian oocyte activation by the synergistic action of discrete sperm head components: induction of calcium transients and involvement of proteolysis. Dev. Biol 217, 386-393.[Medline]

Roche, S., Fumagalli, S. and Courtneidge, S. A (1995). Requirement forSrc family protein tyrosine kinases in G2for fibroblast cell division. Science 269, 1567-1569.[Abstract/Free Full Text]

Roche, S., McGlade, J., Jones, M., Gish, G. D., Pawson, T. and Courtneidge, S. A (1996). Requirement of phospholipase C, the tyrosine phosphatase Syp and the adaptor proteins Shc and Nck for PDGF-induced DNA synthesis: Evidence for the existence of Ras-dependent and Ras-independent pathways. EMBO J 15, 4940-4948.[Medline]

Rongish, B. J., Wu, W. and Kinsey, W. H (1999). Fertilization-induced activation of phospholipase C in the sea urchin egg. Dev. Biol 215, 147-154.[Medline]

Rosati, F. and De Santis, R (1978). Studies on fertilization in the ascidians. I. Self-sterility and specific recognition between gametes of Ciona intestinalis. Exp. Cell Res 112, 111-119.[Medline]

Runft, L. L., Watras, J. and Jaffe, L. A (1999). Calcium release at fertilization of Xenopus eggs requires type I IP3receptors, but not SH2 domain-mediated activation of PLCor Gqmediated activation of PLC. Dev. Biol 214, 399-411.[Medline]

Russo, G. L., Kyozuka, K., Antonazzo, L., Tosti, E. and Dale, B (1996). Maturation promoting factor in ascidian oocytes is regulated by different intracellular signals at meiosis I and II. Development 122, 1995-2003.[Abstract]

Sato, K., Aoto, M., Mori, K., Akasofu, S., Tokmakov, A. A., Sahara, S. and Fukami, Y (1996). Purification and characterization of an Src-related p57 protein-tyrosine kinase from Xenopus oocytes. J. Biol. Chem 271, 13250-13257.[Abstract/Free Full Text]

Sato, K., Iwasaki, T., Tamaki, I., Aoto, M., Tokmakov, A. A. and Fukami, Y (1998). Involvement of protein-tyrosine phosphorylation and dephosphorylation in sperm-induced Xenopus egg activation. FEBS Lett 424, 113-118.[Medline]

Sato, K., Iwao, Y., Fujimura, T., Tamaki, I., Ogawa, K., Iwasaki, T., Tokmakov, A. A., Hatano, O. and Fukami, Y (1999). Evidence for the involvement of an Src-related tyrosine kinase in Xenopus egg activation. Dev. Biol 209, 308-320.[Medline]

Schaller, M. D., Hildebrand, J. D. and Parsons, J. T (1999). Complex formation with focal adhesion kinase: A mechanism to regulate activity and subcellular localization of Src kinases. Mol. Biol. Cell 10, 3489-3505.[Abstract/Free Full Text]

Schlesinger, T. K., DeMali, K. A., Johnson, G. L. and Kazlauskas, A (1999). Platelet-derived growth factor-dependent association of the GTPase-activating protein of Ras and Src. Biochem. J 344, 519-526.

Schmidt, T., Patton, C. and Epel, D (1982). Is there a role for the Ca2+influx during fertilization of the sea urchin egg?. Dev. Biol 90, 284-290.[Medline]

Sensui, N. and Morisawa, M (1996). Effect of Ca2+on deformation, polar body extrusion and pronucleus formation in the egg of the ascidian, Ciona savignyi. Dev. Growth Differ 38, 341-350.

Sette, C., Bevilacqua, A., Bianchini, A., Mangia, F., Geremia, R. and Rossi, P (1997). Parthenogenetic activation of mouse eggs by microinjection of a truncated c-kit tyrosine kinase present in spermatozoa. Development 124, 2267-2274.[Abstract]

Shearer, J., De Nadai, C., Emily-Fenouil, F., Gache, C., Whitaker, M. and Ciapa, B (1999). Role of phospholipase Cat fertilization and during mitosis in sea urchin eggs and embryos. Development 126, 2273-2284.[Abstract]

Shen, S. S., Kinsey, W. H. and Lee, S. J (1999). Protein tyrosine kinase-dependent release of intracellular calcium in the sea urchin egg. Dev. Growth Differ 41, 345-355.[Medline]

Shilling, F. M., Magie, C. R. and Nuccitelli, R (1998). Voltage-dependent activation of frog eggs by a sperm surface disintegrin peptide. Dev. Biol 202, 113-124.[Medline]

Singer, W. D., Brown, H. A. and Sternweis, P. C (1997). Regulation of eukaryotic phosphatidylinositol-specific phospholipase C and phospholipase D. Ann. Rev. Biochem 66, 475-509.[Medline]

Songyang, A. and Cantley, L. C (1995). Recognition and specificity in protein tyrosine kinase-mediated signalling. Trends Biochem. Sci 20, 470-475.[Medline]

Speksnijder, J. E., Corson, D. W., Sardet, C. and Jaffe, L. F (1989). Free calcium pulses following fertilization in the ascidian egg. Dev. Biol 135, 182-190.[Medline]

Speksnijder, J. E, Sardet, C. and Jaffe, L. F (1990). The activation wave of calcium in the ascidian egg and its role in ooplasmic segregation. J. Cell Biol 110, 1589-1598.[Abstract/Free Full Text]

Speksnijder, J. E, Sardet, C. and Jaffe, L. F (1990). Periodic calcium waves cross ascidian eggs after fertilization. Dev. Biol 142, 246-249.[Medline]

Stephano, J. L. and Gould, M. C (1997). The intracellular calcium increase at fertilization in Urechis caupo oocytes: Activation without waves. Dev. Biol 191, 53-68.[Medline]

Stricker, S. A (1997). Intracellular injections of a soluble sperm factor trigger calcium oscillations and meiotic maturation in unfertilized oocytes of a marine worm. Dev. Biol 186, 185-201.[Medline]

Stricker, S. A (1999). Comparative biology of calcium signaling during fertilization and egg activation in animals. Dev. Biol 211, 157-176.[Medline]

Swann, K (1990). A cytosolic sperm factor stimulates repetitive calcium increases and mimics fertilization in hamster eggs. Development 110, 1295-1302.[Abstract/Free Full Text]

Swann, K. and Parrington, J (1999). Mechanism of Ca2+release at fertilization in mammals. J. Exp. Zool 285, 267-275.[Medline]

Terasaki, M. and Sardet, C (1991). Demonstration of calcium uptake and release by sea urchin egg cortical endoplasmic reticulum. J. Cell Biol 115, 1031-1037.[Abstract/Free Full Text]

Terasaki, M., Miyake, K. and McNeil, P. L (1997). Large plasma membrane disruptions are rapidly resealed by Ca2+-dependent vesicle-vesicle fusion events. J. Cell Biol 139, 63-74.[Abstract/Free Full Text]

Thomas, M. L (1999). The regulation of antigen-receptor signaling by protein tyrosine phosphatases: a hole in the story. Curr. Opin. Immunol 11, 270-276.[Medline]

Thomas, J. W., Ellis, B., Boerner, R. J., Knight, W. B., White, G. C. and Schaller, M. D (1998). SH2-and SH3-mediated interactions between focal adhesion kinase and Src. J. Biol. Chem 273, 577-583.[Abstract/Free Full Text]

Toratani, S. and Yokosawa, H (1995). Evidence for the involvement of the Rho GTP-binding protein in egg activation of the ascidian Halocynthia roretzi. Dev. Growth Differ 37, 31-17.

Ueki, K. and Yokosawa, H (1997). Evidence for an erbstatin-sensitive tyrosine kinase functioning in ascidian egg activation. Biochem. Biophys. Res. Commun 238, 130-133.[Medline]

Wang, Z., Gluck, S., Zhang, L. and Moran, M. F (1998). Requirement for phospholipase C-1 enzymatic activity in growth factor-induced mitogenesis. Mol. Cell Biol 18, 590-597.[Abstract/Free Full Text]

Wilding, M. and Dale, B (1998). Soluble extracts from ascidian spermatozoa trigger intracellular calcium release independently of the activation of the ADP ribose channel. Zygote 6, 149-154.[Medline]

Wilding, M., Marino, M. and Dale, B (1999). Nicotinamide alters the calcium release pattern and the degradation of MPF activity after fertilization in ascidian oocytes. Zygote 7, 255-260.[Medline]

Wolosker, H., Kline, D., Bian, Y., Blackshaw, S., Cameron, A. M., Fralich, T. J., Schnaar, R. L. and Snyder, S. H (1998). Molecularly cloned mammalian glucosamine-6-phosphate deaminase localizes to transporting epithelium and lacks oscillin activity. FASEB J 12, 91-99.[Abstract/Free Full Text]

Xu, W., Doshi, A., Lei, M., Eck, M. J. and Harrison, S. C (1999). Crystal structures of c-Src reveal features of its autoinhibitory mechanism. Mol. Cell 3, 629-638.

Yoshida, M., Sensui, N., Inoue, T., Morisawa, M. and Mikoshiba, K (1998). Role of two series of Ca2+oscillations in activation of ascidian eggs. Dev. Biol 203, 122-133.[Medline]

Zalokar, M (1980). Activation of ascidian eggs with lectins. Dev. Biol 79, 232-237.[Medline]

This article has been cited by other articles:

M. Levasseur, M. Carroll, K. T. Jones, and A. McDougall
A novel mechanism controls the Ca2+ oscillations triggered by activation of ascidian eggs and has an absolute requirement for Cdk1 activity
J. Cell Sci., May 15, 2007; 120(10): 1763 - 1771.
[Abstract] [Full Text] [PDF]

A.K.M. Mahbub Hasan, Z. Ou, K. Sakakibara, S. Hirahara, T. Iwasaki, K.-i. Sato, and Y. Fukami
Characterization of Xenopus egg membrane microdomains containing uroplakin Ib/III complex: roles of their molecular interactions for subcellular localization and signal transduction.
Genes Cells, February 1, 2007; 12(2): 251 - 267.
[Abstract] [Full Text] [PDF]

M. Whitaker
Calcium at Fertilization and in Early Development
Physiol Rev, January 1, 2006; 86(1): 25 - 88.
[Abstract] [Full Text] [PDF]

L. M Mehlmann and L. A Jaffe
SH2 domain-mediated activation of an SRC family kinase is not required to initiate Ca2+ release at fertilization in mouse eggs
Reproduction, May 1, 2005; 129(5): 557 - 564.
[Abstract] [Full Text] [PDF]

F. J. O'Neill, J. Gillett, and K. R. Foltz
Distinct roles for multiple Src family kinases at fertilization
J. Cell Sci., December 1, 2004; 117(25): 6227 - 6238.
[Abstract] [Full Text] [PDF]

G. Dupont and R. Dumollard
Simulation of calcium waves in ascidian eggs: insights into the origin of the pacemaker sites and the possible nature of the sperm factor
J. Cell Sci., August 15, 2004; 117(18): 4313 - 4323.
[Abstract] [Full Text] [PDF]

M. Kurokawa, K.-i. Sato, J. Smyth, H. Wu, K. Fukami, T. Takenawa, and R. A Fissore
Evidence that activation of Src family kinase is not required for fertilization-associated [Ca2+]i oscillations in mouse eggs
Reproduction, April 1, 2004; 127(4): 441 - 454.
[Abstract] [Full Text] [PDF]

A Talmor-Cohen, R Tomashov-Matar, E Eliyahu, R Shapiro, and R Shalgi
Are Src family kinases involved in cell cycle resumption in rat eggs?
Reproduction, April 1, 2004; 127(4): 455 - 463.
[Abstract] [Full Text] [PDF]

M. Carroll, M. Levasseur, C. Wood, M. Whitaker, K. T. Jones, and A. McDougall
Exploring the mechanism of action of the sperm-triggered calcium-wave pacemaker in ascidian zygotes
J. Cell Sci., December 15, 2003; 116(24): 4997 - 5004.
[Abstract] [Full Text] [PDF]

K.-i. Sato, A. A. Tokmakov, C.-L. He, M. Kurokawa, T. Iwasaki, M. Shirouzu, R. A. Fissore, S. Yokoyama, and Y. Fukami
Reconstitution of Src-dependent Phospholipase C{gamma} Phosphorylation and Transient Calcium Release by Using Membrane Rafts and Cell-free Extracts from Xenopus Eggs
J. Biol. Chem., October 3, 2003; 278(40): 38413 - 38420.
[Abstract] [Full Text] [PDF]

K.-i. Sato, T. Iwasaki, K. Ogawa, M. Konishi, A. A. Tokmakov, and Y. Fukami
Low density detergent-insoluble membrane of Xenopus eggs: subcellular microdomain for tyrosine kinase signaling in fertilization
Development, March 4, 2003; 129(4): 885 - 896.
[Abstract] [Full Text] [PDF]

R. Dumollard, K. Hammar, M. Porterfield, P. J. Smith, C. Cibert, C. Rouviere, and C. Sardet
Mitochondrial respiration and Ca2+ waves are linked during fertilization and meiosis completion
Development, February 15, 2003; 130(4): 683 - 692.
[Abstract] [Full Text] [PDF]

R. Deguchi and M. Morisawa
External Ca2+ is predominantly used for cytoplasmic and nuclear Ca2+ increases in fertilized oocytes of the marine bivalve Mactra chinensis
J. Cell Sci., January 15, 2003; 116(2): 367 - 376.
[Abstract] [Full Text] [PDF]

R. Dumollard, J. Carroll, G. Dupont, and C. Sardet
Calcium wave pacemakers in eggs
J. Cell Sci., September 15, 2002; 115(18): 3557 - 3564.
[Abstract] [Full Text] [PDF]

D. LIM, K. KYOZUKA, G. GRAGNANIELLO, E. CARAFOLI, and L. SANTELLA
NAADP+ initiates the Ca2+ response during fertilization of starfish oocytes
FASEB J, October 1, 2001; 15(12): 2257 - 2267.
[Abstract] [Full Text] [PDF]

H. Wu, J. Smyth, V. Luzzi, K. Fukami, T. Takenawa, S. L. Black, N. L. Allbritton, and R. A. Fissore
Sperm Factor Induces Intracellular Free Calcium Oscillations by Stimulating the Phosphoinositide Pathway
Biol Reprod, May 1, 2001; 64(5): 1338 - 1349.
[Abstract] [Full Text]

R. Dumollard and C. Sardet
Three different calcium wave pacemakers in ascidian eggs
J. Cell Sci., January 7, 2001; 114(13): 2471 - 2481.
[Abstract] [Full Text] [PDF]

This Article

Summary

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Runft, L. L.

Articles by Jaffe, L. A.

Search for Related Content

PubMed

PubMed Citation

Articles by Runft, L. L.

Articles by Jaffe, L. A.

				A.K.M. Mahbub Hasan, Z. Ou, K. Sakakibara, S. Hirahara, T. Iwasaki, K.-i. Sato, and Y. Fukami Characterization of Xenopus egg membrane microdomains containing uroplakin Ib/III complex: roles of their molecular interactions for subcellular localization and signal transduction. Genes Cells, February 1, 2007; 12(2): 251 - 267. [Abstract] [Full Text] [PDF]

				M. Whitaker Calcium at Fertilization and in Early Development Physiol Rev, January 1, 2006; 86(1): 25 - 88. [Abstract] [Full Text] [PDF]

				L. M Mehlmann and L. A Jaffe SH2 domain-mediated activation of an SRC family kinase is not required to initiate Ca2+ release at fertilization in mouse eggs Reproduction, May 1, 2005; 129(5): 557 - 564. [Abstract] [Full Text] [PDF]

				F. J. O'Neill, J. Gillett, and K. R. Foltz Distinct roles for multiple Src family kinases at fertilization J. Cell Sci., December 1, 2004; 117(25): 6227 - 6238. [Abstract] [Full Text] [PDF]

				G. Dupont and R. Dumollard Simulation of calcium waves in ascidian eggs: insights into the origin of the pacemaker sites and the possible nature of the sperm factor J. Cell Sci., August 15, 2004; 117(18): 4313 - 4323. [Abstract] [Full Text] [PDF]

				M. Kurokawa, K.-i. Sato, J. Smyth, H. Wu, K. Fukami, T. Takenawa, and R. A Fissore Evidence that activation of Src family kinase is not required for fertilization-associated [Ca2+]i oscillations in mouse eggs Reproduction, April 1, 2004; 127(4): 441 - 454. [Abstract] [Full Text] [PDF]

				A Talmor-Cohen, R Tomashov-Matar, E Eliyahu, R Shapiro, and R Shalgi Are Src family kinases involved in cell cycle resumption in rat eggs? Reproduction, April 1, 2004; 127(4): 455 - 463. [Abstract] [Full Text] [PDF]

				M. Carroll, M. Levasseur, C. Wood, M. Whitaker, K. T. Jones, and A. McDougall Exploring the mechanism of action of the sperm-triggered calcium-wave pacemaker in ascidian zygotes J. Cell Sci., December 15, 2003; 116(24): 4997 - 5004. [Abstract] [Full Text] [PDF]

				K.-i. Sato, A. A. Tokmakov, C.-L. He, M. Kurokawa, T. Iwasaki, M. Shirouzu, R. A. Fissore, S. Yokoyama, and Y. Fukami Reconstitution of Src-dependent Phospholipase C{gamma} Phosphorylation and Transient Calcium Release by Using Membrane Rafts and Cell-free Extracts from Xenopus Eggs J. Biol. Chem., October 3, 2003; 278(40): 38413 - 38420. [Abstract] [Full Text] [PDF]

				K.-i. Sato, T. Iwasaki, K. Ogawa, M. Konishi, A. A. Tokmakov, and Y. Fukami Low density detergent-insoluble membrane of Xenopus eggs: subcellular microdomain for tyrosine kinase signaling in fertilization Development, March 4, 2003; 129(4): 885 - 896. [Abstract] [Full Text] [PDF]

				R. Dumollard, K. Hammar, M. Porterfield, P. J. Smith, C. Cibert, C. Rouviere, and C. Sardet Mitochondrial respiration and Ca2+ waves are linked during fertilization and meiosis completion Development, February 15, 2003; 130(4): 683 - 692. [Abstract] [Full Text] [PDF]

				R. Deguchi and M. Morisawa External Ca2+ is predominantly used for cytoplasmic and nuclear Ca2+ increases in fertilized oocytes of the marine bivalve Mactra chinensis J. Cell Sci., January 15, 2003; 116(2): 367 - 376. [Abstract] [Full Text] [PDF]

				R. Dumollard, J. Carroll, G. Dupont, and C. Sardet Calcium wave pacemakers in eggs J. Cell Sci., September 15, 2002; 115(18): 3557 - 3564. [Abstract] [Full Text] [PDF]

				D. LIM, K. KYOZUKA, G. GRAGNANIELLO, E. CARAFOLI, and L. SANTELLA NAADP+ initiates the Ca2+ response during fertilization of starfish oocytes FASEB J, October 1, 2001; 15(12): 2257 - 2267. [Abstract] [Full Text] [PDF]

				H. Wu, J. Smyth, V. Luzzi, K. Fukami, T. Takenawa, S. L. Black, N. L. Allbritton, and R. A. Fissore Sperm Factor Induces Intracellular Free Calcium Oscillations by Stimulating the Phosphoinositide Pathway Biol Reprod, May 1, 2001; 64(5): 1338 - 1349. [Abstract] [Full Text]

				R. Dumollard and C. Sardet Three different calcium wave pacemakers in ascidian eggs J. Cell Sci., January 7, 2001; 114(13): 2471 - 2481. [Abstract] [Full Text] [PDF]