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Behavioral aspects of righting in two asteroids from the Pacific coast of North America., Polls I, Gonor J., Biol Bull. February 1, 1975; 148 (1): 68-84.
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Blood vascular system of the sea cucumber, Stichopus moebii., Herreid CF, LaRussa VF, DeFesi CR., J Morphol. October 1, 1976; 150 (2): 423-451.
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Biocrystals., Inoué S, Okazaki I., Sci Am. April 1, 1977; 236 (4): 82-4, 86, 89-92.
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Blue Cross advertising is a crown of thorns for hospitals., Williamson JA., Hosp Prog. May 1, 1975; 56 (5): 6-8.
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Behavioral ecology of Strongylocentrotus droebachiensis (Muller) (Echinodermata: Echinoidea) : Aggregating behavior and chemotaxis., Garnick E., Oecologia. January 1, 1978; 37 (1): 77-84.
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Biochemistry of dynein and its role in cell motility., Mabuchi I., Horiz Biochem Biophys. January 1, 1978; 5 1-36.
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Buoyant density centrifugation of sea urchin embryo chromatin on sucrose-glucose gradient., Ljiljana S, Koviljka K., Mol Biol Rep. March 1, 1975; 2 (1): 27-34.
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Biosynthesis of N-glycosidically linked glycoproteins during gastrulation of sea urchin embryos., Heifetz A, Lennarz WJ., J Biol Chem. July 10, 1979; 254 (13): 6119-27.
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Biosynthesis and composition of 3 -sterols in the ophiuroids Ophiura albida and Ophioderma longicauda., Voogt PA., Comp Biochem Physiol B. July 15, 1973; 45 (313): 593-601.
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Bipolar and tetrapolar cleavage time in sea urchin eggs., Timourian H, Watchmaker G., Exp Cell Res. October 1, 1971; 68 (2): 428-30.
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Behaviour of sulfhydryl groups of sea urchin eggs under the blockage of cell division by UV and heat shock., Ikeda M., Exp Cell Res. November 1, 1965; 40 (2): 282-91.
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Biological inhibitors of lymphoid cell division., Ranney DF., Adv Pharmacol Chemother. January 1, 1975; 13 359-408.
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Biparental inheritance in an inter-ordinal cross of sea urchin and sand dollar., MOORE AR., J Exp Zool. June 1, 1957; 135 (1): 75-83.
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Biochemical basis of geographic ecology., Mitchell JC., Int J Dermatol. June 1, 1975; 14 (5): 301-20.
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Biochemistry of the amatoxins: preparation and characterization of a stably iodinated alpha-amanitin., Morris PW, Venton DL, Kelley KM., Biochemistry. February 21, 1978; 17 (4): 690-8.
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Basic proteins during sea urchin ovogenesis. (Psammechinus miliaris)., Bäckström S., Acta Embryol Morphol Exp. October 1, 1965; 8 (2): 178-82.
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Binding of Lens culinaris lectin to sea urchin embryo chromatin., Sevaljević L, Petrović SL, Petrović M., Experientia. February 15, 1979; 35 (2): 193-4.
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Bulk membrane fluidity increases after fertilization or partial activation of sea urchin eggs., Campis J, Scandella CJ., J Biol Chem. June 10, 1980; 255 (11): 5411-9.
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Breeding of Psammechinus miliaris in laboratory cultures and outline of a genetic program., Lundin LG., Hereditas. January 1, 1973; 75 (1): 151-3.
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Biological activity of -phenylethanol and its derivates. V. Influence on DNA and RNA synthesis in different in vitro systems., Müller WE, Heicke B, Zahn RK., Biochim Biophys Acta. July 29, 1971; 240 (4): 506-14.
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Basic mechanisms of ovarian function: germ cells., Harris SE., Environ Health Perspect. June 1, 1978; 24 11-6.
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Biochemistry of glycolipids of sea urchin gametes. I. Separation and characterization of new type of sulfolipid and sialoglycolipid., Isono Y, Nagai Y., Jpn J Exp Med. October 1, 1966; 36 (5): 461-76.
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Beta-1,3-glucanase of sea urchin eggs: release from particles at fertilization., Epel D, Weaver AM, Muchmore AV, Schimke RT., Science. January 17, 1969; 163 (3864): 294-6.
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Blockade of deoxyribonucleic acid synthesis by deuterium oxide., GROSS PR, HARDING CV., Science. April 14, 1961; 133 (3459): 1131-3.
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Binding and adenosine triphosphatase of flagellar proteins from sea urchin sperm., Hayashi M, Higashi-Fujime S., Biochemistry. August 1, 1972; 11 (16): 2977-82.
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Binding of concanavalin A to the surface of sea urchin eggs and its alteration upon fertilization., Veron M, Shapiro BM., J Biol Chem. February 25, 1977; 252 (4): 1286-92.
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Base distribution in the coding and noncoding regions in the rDNA of Lytechinus variegatus., Blin N, Kan NC., Gene. June 1, 1980; 10 (1): 75-8.
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BIOCHEMICAL ASPECTS OF ANIMALIZATION AND VEGETALIZATION IN THE SEA URCHIN EMBRYO., LALLIER R., Adv Morphog. January 1, 1964; 4 147-96.
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BIOCHEMICAL STUDIES ON THE EARLY DEVELOPMENT OF THE SEA URCHIN., MONROY A, MAGGIO R., Adv Morphog. January 1, 1964; 4 95-145.
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Binding sites of -SH reagents in dividing sea urchin egg., Okazaki Y, Mabuchi I, Kimura I, Sakai H., Exp Cell Res. December 1, 1973; 82 (2): 325-34.
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BASE COMPOSITION OF RNA SYNTHESIZED DURING CLEAVAGE OF THE SEA URCHIN EMBRYO., GROSS PR, KRAEMER K, MALKIN LI., Biochem Biophys Res Commun. February 17, 1965; 18 569-75.
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BIOCHEMICAL STUDIES OF NUCLEATE AND ANUCLEATED FRAGMENTS ISOLATED FROM SEA-URCHIN EGGS. A COMPARISON BETWEEN FERTILIZATION AND PARTHENOGENETIC ACTIVATION., BALTUS E, QUERTIER J, FICQ A, BRACHET J., Biochim Biophys Acta. March 15, 1965; 95 408-17.
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Bermuda sea urchins and their eggs., HARVEY EB., Biol Bull. October 1, 1947; 93 (2): 217.
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Biochemical studies on sea urchin hybrids., BALTZER F, CHEN PS, WHITELEY AH., Exp Cell Res. January 1, 1959; Suppl 6 192-209.
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Basic proteins in the sea urchin embryo (Paracentrotus lividus)., Bäckström S., Acta Embryol Morphol Exp. May 1, 1965; 8 (1): 20-31.
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Biosynthesis of sterols in a starfish, Laiaster leachii., Teshima SI, Kanazawa A., Comp Biochem Physiol B. November 15, 1975; 52 (3): 437-41.
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Biochemical properties of microtubules., Bryan J., Fed Proc. February 1, 1974; 33 (2): 152-7.
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Bouyant density of the DNA of sea urchin embryos at different stages of development., Borkhsenius SN, Andreeva LI, Vorob'ev VI., Mol Biol. January 1, 1975; 8 (4): 461-6.
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Biochemical and electron microscopic evidence that cell nucleus negatively controls mitochondrial genomic activity in early sea urchin development., Rinaldi AM, De Leo G, Arzone A, Salcher I, Storace A, Mutolo V., Proc Natl Acad Sci U S A. April 1, 1979; 76 (4): 1916-20.
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Blocking effects of barium and hydrogen ions on the potassium current during anomalous rectification in the starfish egg., Hagiwara S, Miyazaki S, Moody W, Patlak J., J Physiol. June 1, 1978; 279 167-85.
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Block of histone synthesis in isolated sea urchin cells actively synthesizing DNA., Di Liegro I, Cestelli A, Ciaccio M, Cognetti G., Dev Biol. December 1, 1978; 67 (2): 266-73.
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Biochemistry of mucolipids of sea urchin gametes and embryos. 3. Mucolipids during early development., Hoshi M, Nagai Y., Jpn J Exp Med. October 1, 1970; 40 (5): 361-5.
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Bioelectric responses of the echinoderm egg to fertilization., Steinhardt RA, Lundin L, Mazia D., Proc Natl Acad Sci U S A. October 1, 1971; 68 (10): 2426-30.
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Biochemical effects of ethionine on sea urchin embryo development., Graziani F, Parisi E, Scarano E., Biochim Biophys Acta. July 16, 1970; 213 (1): 208-14.
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Bacterial flora of the sea urchin Echinus esculentus., Unkles SE., Appl Environ Microbiol. October 1, 1977; 34 (4): 347-50.
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BIOCHEMISTRY OF THE ALPHA-GLYCERYL ETHERS. I. DISTRIBUTION IN MAMMALIAN TISSUES AND IN STARFISH., TODD D, RIZZI GP., Proc Soc Exp Biol Med. January 1, 1964; 115 218-22.
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Basic proteins in parthenogenetically activated sea urchin eggs., Bäckström S., Acta Embryol Morphol Exp. October 1, 1966; 9 (1): 83-6.
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BINDING OF CONCANAVALIN A TO THE SURFACE OF STARFISH FOLLICLE CELLS AND PRODUCTION OF 1-METHYLADENINE., Kubota J, Kanatani H., Dev Growth Differ. January 1, 1978; 20 (4): 349-351.
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Biochemical properties of abnormal embryos of echinoderms and amphibians., Stanisstreet M, Osborn J., Life Sci. March 1, 1976; 18 (5): 451-60.
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