The sodium and potassium content in unfertilized and fertilized eggs of the sea urchin.

Abstract

EmbryologiaVolume 9, Issue 1 p. 34-39 Free Access THE SODIUM AND POTASSIUM CONTENT IN UNFERTILIZED AND FERTILIZED EGGS OF THE SEA URCHIN REIJI HORI, REIJI HORI Biological Institute, Toyama University, Toyama This work was partly supported by the Scientific Fund of the Ministry of Education.Search for more papers by this author REIJI HORI, REIJI HORI Biological Institute, Toyama University, Toyama This work was partly supported by the Scientific Fund of the Ministry of Education.Search for more papers by this author First published: October 1965 https://doi.org/10.1111/j.1440-169X.1965.tb00213.xCitations: 13 AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Literature Biakaszewicz, K., 1929. Recherches sur la réporition des electrolytes dans le protoplasme des cellules ovalarires. Protoplasm, 6, 1– 50. Brooks, S. C., 1940. The intake of radioactive isotopes by living cells. Cold Spring Harbor Symp. Quant. Biol., 8, 171– 180. Hiramoto, Y., 1959a. Changes in electric properties upon fertilization in the sea urchin egg. Exptl. Cell Res., 16, 421– 424. Hiramoto, Y. 1959b. Electric properties of echinoderm eggs. Embryologia, 4, 219– 235. Hodgkin, A. L., 1951. The ionic basis of electrical activity in nerve and muscle. Biol. Rev., 26, 339– 409. Hori, R., 1957. Membrane potential of the unfertilized egg of the Medaka, Oryzias latipes and its changes accompanying activation (in Japanese). Zool. Mag., 66, 87. Hori, R. 1958. On the change in membrane potential accompanying fertilization of the narcotized egg of the sea urchin, Hemicentrotus pulcherrimus. Bull. Marine Biol. Stat. Asamushi, 9, 67– 68. Lord Rothschild and H. Barnes, 1953. The inorganic constituents of the sea urchin egg. J. exp. Biol., 30, 534– 544. Malm, M. and L. Wachtmeister, 1950. A comparison between the potassium content of unfertilized and fertilized sea-urchin eggs. Arkiv för Kemi., 2, 443– 449. Monroy-Oddo, A. and M. Esposito, 1951. Changes in the potassium content of sea urchin eggs on fertilization. J. gen. Physiol., 34, 285– 293. Nakamura, M., 1950. Phosphate determination in biological materials (in Japanese). Agric. Chem., 24, 1– 8. Okuno, H., M. Honda, and H. Ishimori, 1953. Separation of alkali metals with ion-exchange resine (in Japanese). Japan Analyst, 2, 428– 431. Page, I. H., 1927. The electrolyte content of the sea urchin and starfish egg. Biol. Bull., 52, 168– 172. Scheer, B. T., A. Monroy, M. Santangelo, and G. Riccobono, 1954. Action potentials in sea urchin egg at fertilization. Exptl. Cell Res., 7, 284– 287. Shapiro, H. and H. Davson, 1941. Permeability of the Arbacia egg to potassium. Biol. Bull., 81, 295– 296. Sugiyama, M., 1947. On the artificial parthenogenesis of sea urchin egg II. Membrane formation with urea solution and salt ions (in Japanese). Zool. Mag., 57, 79– 80. Tyler, A. and A. Monroy, 1959. Changes in the rate of transfer of potassium across the membrane upon fertization of eggs of Arbacia punctulata. J. exp. Zool., 142, 675– 690. Tyler, A. and A. Monroy, C. Y. Kao, and H. Grundfest, 1956. Membrane potential and resistance of the starfish egg before and after fertilization. Biol. Bull, 111, 153– 177. Citing Literature Volume9, Issue1October 1965Pages 34-39 ReferencesRelatedInformation