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Gene expression profiling during the embryo-to- larva transition in the giant red sea urchin Mesocentrotus franciscanus. , Gaitán-Espitia JD, Hofmann GE., Ecol Evol. March 14, 2017; 7 (8): 2798-2811.
Expression of the invertebrate sea urchin P16 protein into mammalian MC3T3 osteoblasts transforms and reprograms them into "osteocyte-like" cells. , Alvares K , Ren Y, Feng JQ, Veis A., J Exp Zool B Mol Dev Evol. January 1, 2016; 326 (1): 38-46.
Phosphoproteomic network analysis in the sea urchin Strongylocentrotus purpuratus reveals new candidates in egg activation. , Guo H, Garcia-Vedrenne AE, Isserlin R, Lugowski A, Morada A, Sun A, Miao Y, Kuzmanov U, Wan C, Ma H, Foltz K , Emili A., Proteomics. December 1, 2015; 15 (23-24): 4080-95.
Phosphoproteomes of Strongylocentrotus purpuratus shell and tooth matrix: identification of a major acidic sea urchin tooth phosphoprotein, phosphodontin. , Mann K, Poustka AJ, Mann M., Proteome Sci. February 8, 2010; 8 (1): 6.
Blocking Dishevelled signaling in the noncanonical Wnt pathway in sea urchins disrupts endoderm formation and spiculogenesis, but not secondary mesoderm formation. , Byrum CA , Xu R, Bince JM, McClay DR , Wikramanayake AH ., Dev Dyn. July 1, 2009; 238 (7): 1649-65.
Fertilization of sea urchin eggs and sperm motility are negatively impacted under low hypergravitational forces significant to space flight. , Tash JS, Kim S, Schuber M, Seibt D, Kinsey WH ., Biol Reprod. October 1, 2001; 65 (4): 1224-31.
ABF1 Ser-720 is a predominant phosphorylation site for casein kinase II of Saccharomyces cerevisiae. , Upton T, Wiltshire S, Francesconi S, Eisenberg S., J Biol Chem. July 7, 1995; 270 (27): 16153-9.
Phosphoprotein phosphatase 1 ( PP1) is a component of the isolated sea urchin mitotic apparatus. , Johnston JA, Sloboda RD, Silver RB., Cell Motil Cytoskeleton. January 1, 1994; 29 (3): 280-90.
Phosphorylation of a 225-kDa centrosomal component in mitotic CHO cells and sea urchin eggs. , Kuriyama R, Maekawa T., Exp Cell Res. October 1, 1992; 202 (2): 345-54.
In vivo protein phosphorylation and labeling of ATP in sea urchin eggs loaded with 32PO4 via electroporation. , Larochelle DA, Epel D ., Dev Biol. November 1, 1991; 148 (1): 156-64.
Phosphoprotein inhibition of calcium-stimulated exocytosis in sea urchin eggs. , Whalley T, Crossley I, Whitaker M ., J Cell Biol. May 1, 1991; 113 (4): 769-78.
In vitro phosphorylation of sea urchin sperm adenylate cyclase by cyclic adenosine monophosphate-dependent protein kinase. , Bookbinder LH, Moy GW, Vacquier VD ., Mol Reprod Dev. February 1, 1991; 28 (2): 150-7.
Immunocytochemical evidence for centrosomal phosphoproteins in mitotic sea urchin eggs. , Kuriyama R, Rao PN, Borisy GG., Cell Struct Funct. February 1, 1990; 15 (1): 13-20.
225-Kilodalton phosphoprotein associated with mitotic centrosomes in sea urchin eggs. , Kuriyama R., Cell Motil Cytoskeleton. January 1, 1989; 12 (2): 90-103.
Identification, characterization, and functional correlation of calmodulin-dependent protein phosphatase in sperm. , Tash JS, Krinks M, Patel J, Means RL, Klee CB, Means AR., J Cell Biol. May 1, 1988; 106 (5): 1625-33.
Matrix proteins of the teeth of the sea urchin Lytechinus variegatus. , Veis DJ, Albinger TM, Clohisy J, Rahima M, Sabsay B, Veis A., J Exp Zool. October 1, 1986; 240 (1): 35-46.
Calmodulin-binding protein (55K + 17K) of sea urchin eggs has a Ca2+- and calmodulin-dependent phosphoprotein phosphatase activity. , Iwasa F, Ishiguro K., J Biochem. May 1, 1986; 99 (5): 1353-8.
Dephosphorylation of sea urchin sperm guanylate cyclase during fertilization. , Ward GE, Moy GW, Vacquier VD ., Adv Exp Med Biol. January 1, 1986; 207 359-82.
Regulation of sperm flagellar movement by protein phosphorylation and dephosphorylation. , Murofushi H, Ishiguro K, Takahashi D, Ikeda J, Sakai H., Cell Motil Cytoskeleton. January 1, 1986; 6 (2): 83-8.
Phosphoprotein phosphatase inhibits flagellar movement of Triton models of sea urchin spermatozoa. , Takahashi D, Murofushi H, Ishiguro K, Ikeda J, Sakai H., Cell Struct Funct. December 1, 1985; 10 (4): 327-37.
Phosphorylation of sea urchin sperm H1 and H2B histones precedes chromatin decondensation and H1 exchange during pronuclear formation. , Green GR, Poccia DL ., Dev Biol. March 1, 1985; 108 (1): 235-45.
Effects of extracellular egg factors on sperm guanylate cyclase. , Ward GE, Garbers DL , Vacquier VD ., Science. February 15, 1985; 227 (4688): 768-70.
A peptide associated with eggs causes a mobility shift in a major plasma membrane protein of spermatozoa. , Suzuki N, Shimomura H, Radany EW, Ramarao CS, Ward GE, Bentley JK, Garbers DL ., J Biol Chem. December 10, 1984; 259 (23): 14874-9.
Flagellar motility requires the cAMP-dependent phosphorylation of a heat-stable NP-40-soluble 56 kd protein, axokinin. , Tash JS, Kakar SS, Means AR., Cell. September 1, 1984; 38 (2): 551-9.
The increased phosphorylation of ribosomal protein S6 in Arbacia punctulata is not a universal event in the activation of sea urchin eggs. , Ward GE, Vacquier VD , Michel S., Dev Biol. February 1, 1983; 95 (2): 360-71.
Phosphoprotein phosphatase activity of sea urchin spermatozoa. , Swarup G, Garbers DL ., Biol Reprod. June 1, 1982; 26 (5): 953-60.