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THE NATURE OF THE FERTILIZATION MEMBRANE OF THE EGG OF THE SEA URCHIN (ARBACIA PUNCTULATA). , Kite GL., Science. October 25, 1912; 36 (930): 562-4.
THE FUNCTION OF THE FERTILIZATION MEMBRANE IN THE DEVELOPMENT OF THE LARVA OF THE SEA URCHIN. , Moore AR., Science. October 11, 1929; 70 (1815): 360.
On the coherence of the blastomeres of sea urchin eggs. , Moore MM., Wilhelm Roux Arch Entwickl Mech Org. December 1, 1932; 125 (4): 487-494.
ELECTRIC IMPEDANCE OF ARBACIA EGGS. , Cole KS., J Gen Physiol. March 20, 1936; 19 (4): 625-32.
ELECTRIC IMPEDANCE OF FERTILIZED ARBACIA EGG SUSPENSIONS. , Cole KS., J Gen Physiol. May 20, 1938; 21 (5): 583-90.
On the relation between oxygen consumption, fertilization membrane formation, and cell division in artificially fertilized Arbacia eggs. , KELTCH AK., Biol Bull. October 1, 1947; 93 (2): 195.
The behavior of the nucleic acids during the early development of the sea urchin egg (Arbacia). , SCHMIDT G., J Gen Physiol. January 30, 1948; 31 (3): 203-7.
The incorporation of P32 into the nucleoproteins and phosphoproteins of the developing sea urchin embryo. , VILLEE CA., J Cell Comp Physiol. February 1, 1949; 33 (1): 93-112.
The distribution of desoxyribonuclease in the developing embryo, Arbacia punctulata. , MAZIA D., J Cell Comp Physiol. August 1, 1949; 34 (1): 17-32.
The pigment granules of the egg and embryo of the sea-urchin Paracentrotus lividus. , MONROY A., Experientia. January 15, 1952; 8 (1): 29-30.
On a normally occurring reduction-division in somatic cells of the sea urchin embryo. , LINDAHL PE., Exp Cell Res. December 1, 1953; 5 (2): 416-9.
[Effect of various anticoagulants on the development of the fertilization membrane of the sea-urchin egg]. , MOLHO D., C R Seances Soc Biol Fil. November 1, 1954; 148 (21-22): 1824-9.
A mitotic rhythm in the appearance of mitochondria during the early cleavages of the sea urchin embryo. , AGRELL I., Exp Cell Res. February 1, 1955; 8 (1): 232-4.
[Metachromatic dyes and heparinoids: mechanism of action on blood coagulation and on the fertilization membrane of sea urchin eggs]. , MOLHO D., C R Seances Soc Biol Fil. May 1, 1955; 149 (9-10): 956-60.
The action of oestradiol on desoxyribonucleoprotein as the cause of its inhibitory effect upon mitosis in the sea urchin embryo. , AGRELL I., Biochim Biophys Acta. June 1, 1956; 20 (3): 543-6.
Studies on nuclear activity in the differentiation of the sea urchin embryo. , MARKMAN B., Exp Cell Res. April 1, 1957; 12 (2): 424-6.
Effects on DON (6-diazo-5-oxo-L-norleucine) and azaserine on the sand-dollar embryo. , KARNOFSKY DA., Proc Soc Exp Biol Med. January 1, 1958; 97 (1): 32-7.
The enzymatic deamination of 5''-deoxycytidylic acid and of 5-methyl-5''-deoxycytidylic acid in the developing sea urchin embryo. , SCARANO E., Exp Cell Res. October 1, 1959; 18 333-46.
Effects of 5-fluorodeoxyuridine and related halogenated pyrimidines on the sand-dollar embryo. , KARNOFSKY DA., J Biophys Biochem Cytol. February 1, 1960; 7 61-71.
Studies on the cellular basis of morphogenesis in the sea urchin embryo. Gastrulation in vegetalized larvae. , GUSTAFSON T., Exp Cell Res. January 1, 1961; 22 437-49.
Studies on the cellular basis of morphogenesis in the sea urchin embryo. Directed movements of primary mesenchvme cells in normal and vegetalized larvae. , GUSTAFSON T., Exp Cell Res. June 1, 1961; 24 64-79.
Comparative study of the localization of incorporated 14C-labeled amino acids and 35SO4 in the sea urchin ovary, egg and embryo. , IMMERS J., Exp Cell Res. August 1, 1961; 24 356-78.
Studies on the cellular basis of morphogenesis of the sea urchin embryo. Development of the skeletal pattern. , WOLPERT L., Exp Cell Res. November 1, 1961; 25 311-25.
Studies on the cellular basis of morphogenesis of the sea urchin embryo. The formation of the blastula. , WOLPERT L., Exp Cell Res. November 1, 1961; 25 374-82.
The role of the cortical granules in the formation of the fertilization membrane in the eggs of sea urchins. II. , ENDO Y., Exp Cell Res. December 1, 1961; 25 518-28.
Utilization of C14-glucose for amino acids and protein synthesis by the sea urchin embryo. , MONROY A., J Cell Comp Physiol. December 1, 1962; 60 285-7.
EFFECTS OF GROWTH-INHIBITING CHEMICALS ON THE SAND-DOLLAR EMBRYO, ECHINARACHNIUS PARMA. , KARNOFSKY DA., Prog Exp Tumor Res. January 1, 1963; 3 254-95.
An electron microscope study of the development of the blastula of the sea urchin embryo and its radial polarity. , WOLPERT L., Exp Cell Res. April 1, 1963; 30 280-300.
CELLULAR MECHANISMS IN THE MORPHOGENESIS OF THE SEA URCHIN EMBRYO. CELL CONTACTS WITHIN THE ECTODERM AND BETWEEN MESENCHYME AND ECTODERM CELLS. , GUSTAFSON T., Exp Cell Res. December 1, 1963; 32 570-89.
DEVELOPMENTAL CHANGES IN THE INCORPORATION OF 5-IODO-DEOXYURIDINE BY THE EMBRYO OF ARBACIA PUNCTULATA. , WHEELER MB., Exp Cell Res. January 1, 1964; 33 39-45.
BIOCHEMICAL ASPECTS OF ANIMALIZATION AND VEGETALIZATION IN THE SEA URCHIN EMBRYO. , LALLIER R., Adv Morphog. January 1, 1964; 4 147-96.
DIFFERENTIATION OF THE ORAL FIELD OF THE SEA URCHIN EMBRYO. , CZIHAK G., Nature. January 18, 1964; 201 315.
REGIONAL DIFFERENCES OF MITOCHONDRIAL SIZE IN THE SEA URCHIN EMBRYO. , BERG WE., Exp Cell Res. February 1, 1964; 33 422-37.
INTERCELLULAR ELECTRICAL COUPLING AT A FORMING MEMBRANE JUNCTION IN A DIVIDING CELL. , ASHMAN RF., Science. August 7, 1964; 145 (3632): 604-5.
PRESSURE-TEMPERATURE STUDIES ON THE HYALINE MEMBRANE OF SEA URCHIN EGGS. , ASTERITA HL., J Cell Comp Physiol. October 1, 1964; 64 221-37.
IMMUNO-ELECTRON MICROSCOPE ANALYSIS OF THE SURFACE LAYERS OF THE UNFERTILISED SEA URCHIN EGG. I. EFFECTS OF THE ANTISERA ON THE CELL ULTRASTRUCTURE. , BAXANDALL J., J Cell Biol. December 1, 1964; 23 609-28.
BASE COMPOSITION OF RNA SYNTHESIZED DURING CLEAVAGE OF THE SEA URCHIN EMBRYO. , GROSS PR., Biochem Biophys Res Commun. February 17, 1965; 18 569-75.
METYLATION OF NUCLEIC ACIDS DURING SEA URCHIN EMBRYO DEVELOPMENT. , COMB DG., J Mol Biol. April 1, 1965; 11 851-5.
Basic proteins in the sea urchin embryo (Paracentrotus lividus). , Bäckström S., Acta Embryol Morphol Exp. May 1, 1965; 8 (1): 20-31.
Separation of the fertilization membrane in Urechis and sea urchin eggs as a phenomenon caused by breakage of hydrogen bonds. 3. Elevation of a thin membrane in sea urchin eggs. , Isaka S., Exp Cell Res. October 1, 1965; 40 (1): 201-3.
On methylation of DNA during development of the sea urchin embryo. , Scarano E., J Mol Biol. December 1, 1965; 14 (2): 603-7.
Analysis of the effect of alpha-dinitrophenol on cleavage and development of the sea urchin embryo. , Hagström BE., Protoplasma. January 1, 1966; 62 (2): 246-54.
Analysis of the vegetalizing action of tyrosine on the sea urchin embryo. , Mastrangelo MF., J Exp Zool. February 1, 1966; 161 (1): 109-27.
Studies on controlled and released respiration in animal and vegetal halves of the embryo of the sea urchin, Paracentrotus lividus. , De Vincentiis M., Exp Cell Res. March 1, 1966; 41 (3): 535-44.
Separation of the fertilization membrane in Urechis and sea urchin eggs as a phenomenon caused by breakage of hydrogen bonds. IV. Denaturing action of proteolytic enzymes. , Isaka S., Exp Cell Res. March 1, 1966; 41 (3): 467-72.
The genetic control of sea urchin development: a chromatographic study of protein synthesis in the Arbacia punctulata embryo. , Ellis CH., J Exp Zool. October 1, 1966; 163 (1): 1-21.
Cilia regeneration in the sea urchin embryo: evidence for a pool of ciliary proteins. , Auclair W., Science. November 18, 1966; 154 (3751): 913-5.
Regeneration of cilia in the sea urchin embryo. , Iwaikawa Y., Embryologia (Nagoya). March 1, 1967; 9 (4): 287-94.
Cytological and morphological studies of the action of lithium on the development of the sea urchin embryo. , Hagström BE., Wilhelm Roux Arch Entwickl Mech Org. March 1, 1967; 158 (1): 1-12.
An electrophoretic characterization of ribosomal and nuclear basic proteins in the sea urchin embryo. , Davenport R., Acta Embryol Morphol Exp. October 1, 1967; 9 (3): 270-3.