Внешняя среда и развивающийся организм - Баранов В.С.
Скачать (прямая ссылка):
Do Laat S., Wonterя W., da Silva Ptmenfa Guardо. Д/. М., da Silva Gnarda M. A. 1075. Intracellular ionic comparlmentation, electrical membrane properties, and call membrane permeability before and durine first cleavage in Ihn Ambystoma egg.—Exptl Cell lies., 91, p. 15—30.
Dtytrup J. 1964. Physiology of the Amphibia. N. Y„ Acad. Press.
Dick D.. Lea E. 1964. Na fluxes in single toad oocytes with special-refercnce to the effect of external and internal Na concentration on Na flux.- • J. Physiol., 174, p. 55—90.
Dick D., Lea E. 1967. The partion of sodium fluxes in isolatfitl toad oocytes.— J. Physiol., 191, p. 289—308.
Dick Г)., McLaughlin S. 1969. The activities and concentrations of sodium and potassium in toad oocytes.—J. Physiol., 205, p. 01 73.
Dick D., Fry D., John P., Rogers A. 1970. Autoradiographic demonstration of inborn ogeaeous distribution of sodium in single oocytes by Bufo bufo.— J. Physiol., 210, p. 305—319.
f)icb D., fry D. 1975. Sodium fluxes in single amphibian oocytes: further stu-
dies and new model. —J. Physiol., 247, p. 91—116.
Echer R.. Smith L. 1971. Influence of oxo genous ions on the events of maturation in Hana pi pies oocytes.—J. Cell Physiol., 77, p. 61—70.
F.pel D., Steinhardl R., Humphreys Т., Ma-zia D. 1974. An analysis of sea urchi-nepgs by ammonia: the existence of independent pathways.— Developm. Biol.,. 40, p. 245-255.
Garrachan P. L, Glynn J. M. 1967. The stoichiometry of the sodium pump —J. Physiol., 192, p. 217—234.
Gingell D. 1970. Contractile response al the surface of an amphibian egg.—J. Em-bryoL and Exptl. Morphol., 23, p. 583— 609.
Goldman D. E. 1943. Potential, impedance and rectification in membranes.— J. (Jen. Physiol., 27, p. 37—60.
Guidtce G. 1973. Developmental biology of the sea urchin embryo. N. Y.— London». Acad. Press.
Humphreys T. 1967. The cell surface and: specific aggregation.— In: The specificity of cell surface. New Jersey. Pronticc-Hall Press, p. 195—210.
Hanocq 7Raltux SleinerL G. 1974. Ef-fe?.s de deux iono-phorcs du calcium sur les oeufs dc Xonopus laevis.— C. r. Acad, sci. Paris, L> 279. p. 2111—2114.
Harris H., Zafik S. 1974. Studies on the surface of chick blastoderm colls. III. Calcium binding to ionogenic sites.— .T. Physiol., 83, p. 359—368.
Harvey E. 1956. The American arbacia and other sea urchins. Princeton, Univ. Press.
Rinke J. A. M. 1961. The measurement of sodium and potassium activities in the snnid axon by means of cation-selective glass microeleotrodes.— J. Physiol., 156, p. 314—335.
Riramoto Y. 1959. Electric properties of echinoderm eggs.— Embryologia, 4, p. 219—235.
Hodgkin A. L. 1951. The ionic basis of clectrical activity in nerve and muscle.— Biol. Rev., 26, p. 339—409.
Hodgkin A. L., Kaiz B. 1949. The cffect of sodium ions on the electrical activity of the giant axon of the squid.— J. Physiol., 108, p. 37—77.
Hodgkin A. L., Keynes Л. D. 1953. The mobility and diffusion coefficient of potassium in giant axons from Sepia.— J. Physiol., 119, p. 513-528.
Hodgkin .4. L.r Keynes R. D. 1955. The potassium permeability оГ a giant nerve fibre.- .1. Physiol., 128, p. 61—8K.
Holtrjretec 1. 1943. Properties and functions of the surface coat in amphibian embryos.— J. Exptl Zool., 93, p. 251— 323.
Horowitz S., Fenlchel J. 1970. Analysis оГ sodium transport in tho amphibian oocyte by extractive and radioautographic techniques.— J. Cell Biol., 47, p. 120—131.
Hunnibal 0., Lea E. 1974. Ionic relations and electrical properties о f isolated oocytes of Bufo Jbufo wilh special геГе-rence to removal extracellular chloride.— J. Physiol., 243, p. 313—352.
Jkegami S., Okada Т., Koide S. 1976. On the role oi calcium ions in OOCyle maturation in the polychacte Chaetopterus pergamentaceus.— Devclopm. Growtn and Different, 18. p. 33—44.
Ito Sh. 1962. Change oi membrane potential and resistance during fertilization.— Embryologia. 7, p. 47—Г>5.
llo Sh. 1972. Effects of media of different iouic composition on the activation potential of uuhran egg cells.— Devclopm. Growth and Different, 14. p. 217—227.
Ho Sh., Yoshioka Т. 1Л72. Real potential activation observed in sea urchin egg during fertilization.—Exptl Cell Ties., 72, p. 547—551.
Jones K., Elsdale T. 1063. The eulture of small aggregates of amphibian embryo-nic cells in vitro.— .!. Embryol. and T.xptl Morphol.. 11. p. 135—154.
Keynes П. t)., Lewis P. R. 1951. Tin* sodium ami potassium content, of cephalo-pod nerve fibres.— J. Phvsiol., 114, p. 151—182.
Keynes R. D., Lewis P. R. 1956. The intracellular calcium contents of some invertebrate nerves.—J. Physiol., 134, p. 399— 407.
.Кош!о К. 1973. Cell-biading substances in sea urchin embryos.— Developm. Growth and Different, 15. p. 211—216.
Kvstcllou} Л., Morrill G. 1 !lti8. InLereellular sodium ion соucentration changes in l.he early amphibian embryo and influence of nuclear metabolism.—Exptl Cell Res., 50, p. 639-644.
Kroegcr П., T.ezzi M. 1961». ltegnlaliou of "one action in insect development.— Annual Rev. Entomol., 11, p. 1—22.
