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Stimulation of Adrenals During the Critical Periods of Development and Production in Fowls.

Published online by Cambridge University Press:  18 September 2007

Anna JA. Avrutina ,
Irina L. Galpern  and
S. M. Kisljuk
Anna JA. Avrutina
Affiliation:
All-Union Institute of Farm Animal Breeding and Genetics, Leningrad-Pushkin, 188620, USSR.
Irina L. Galpern
Affiliation:
All-Union Institute of Farm Animal Breeding and Genetics, Leningrad-Pushkin, 188620, USSR.
S. M. Kisljuk
Affiliation:
All-Union Institute of Farm Animal Breeding and Genetics, Leningrad-Pushkin, 188620, USSR.
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Abstract

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Type
Research Article
Information
World's Poultry Science Journal , Volume 41 , Issue 2 , June 1985 , pp. 108 - 114
Copyright
Copyright © Cambridge University Press 1985

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References

Avrutina, A. JA. and Kisljuk, S. M. (1978). Critical period of development of the hypophyseal-adrenal system in postembryonic ontogenesis of hen. Zhurnal evolutsionnoy biochimii i physiologii 14: 441 (in Russian).Google Scholar
Avrutina, A. JA. and Kisljuk, S. M. (1978). Trace phenomena in ontogenesis of hypophysial-adrenal hen system. XVI World's Poultry Congress Rio de Janeiro. v. 11: 1835.Google Scholar
Avrutina, A. JA. and Kisljuk, S. M. (1979). Changes of adrenal activity in hen after technological and experimental effects. Transactions of All-Union Institute of Breeding and Genetics of Farm Animals, Leningrad. 28: 73 (in Russian).Google Scholar
Avrutina, A. JA. and Kisljuk, S. M. (1980). Imprinting of thermal influences in embryogenesis of the hypothalamo-hypophyseal-adrenal system in the domestic hen. Zhournal evolutsionnoy biochimmii i physiologii 16: 568 (in Russian).Google Scholar
Avrutina, A. JA. and Kisljuk, S. M. (1982). Formation of the reaction of hypothalamic/hypophyseal-adrenocortical system to cooling during chick embryogenesis. Onotogenes 13: 404 (in Russian).Google Scholar
Avrutina, A. JA., Kisljuk, S. M., Kokoschnicova, A. A., Kapskaja, K. M. and Luchina, A. N. (1982). A new regime of egg cooling during incubation. Ptitsevodstvo 11: 16 (in Russian).Google Scholar
Anokhin, P. K. (1975). Ocherki po physiologii functsionalnikh system. Moskow (in Russian).Google Scholar
Bernstein, L. and Elrick, H. (1960). The handling of experimental animals as a control factor in animal research—a review. Metabolism 6: 479.Google Scholar
Beuving, G. and Vonder, G. M. A. (1978). Effect of Stressing factors on Corticosterone Levels in the Plasma of Laying Hens. General and Comparative Endocrinology 35: 153.CrossRefGoogle ScholarPubMed
Bykchovets, A. U. (1966). Periodic coolings of eggs during incubation and increase adaptability of fowls. XIII World's Poultry Congress, Kiev, p. 505 (in Russian).Google Scholar
Denenberg, V. H. and Zarrow, M. X. (1970). Infantile stimulation, adult behaviour and adrenocortical activity. In: The postnatal development of phenotype. Prague, p. 123.Google Scholar
Freeman, B. M. (1976). Stress in domestic fowl; A Physiological reappraisal. World's Poultry Science Journal 32: 249.CrossRefGoogle Scholar
Holms, W. H. and Phillips, J. C. (1976). The adrenal cortex of birds. In: General, Comparative and Clinical Endocrinology of adrenal cortex.L., etc., v. 1, p. 293.Google Scholar
Kalliecharan, R. and Hall, B. K. (1974). A development study of the levels of progesterone, corticosterone, cortisole and cortisone circulating in plasma of chick embryos. General and Comparative Endocrinology 24: 364.CrossRefGoogle Scholar
Kisljuk, S. M. (1977). Critical period of development of the hypophyseal-adrenal system in hen. Bulletin of All-Union research Institute of Breeding and Genetics of Farm Animals, Leningrad 23: 31 (in Russian).Google Scholar
Leibson, R. S. (1960). Hypertrophy of adrenals in chicks as a result of insulin injection to embryos. In: Materialy po evolutsionnoy physiologii, Moscow-Leningrad, v. 4: p. 201 (in Russian).Google Scholar
Levine, S. and Mullins, R. F. (1966). Hormonal influence on brain organisation in infant rats. Science 152: 1585.CrossRefGoogle ScholarPubMed
Masina, T. I. (1966). Adrenal cortex function during embriogenesis. In: Stanovlenie endocrinnoy functsii v sarodischevom rasvitii. Moscow, p. 97 (in Russian).Google Scholar
Mitskevich, M. S. (1978). Gormonalnii regulatsii v ontogenese zhivotnikh. Moscow (in Russian).Google Scholar
Murphy, B. E. P. (1967). Some studies of the protein-binding of steroids and their application to the routine micro and ultramicro measurement of various steroids in body fluids by competitive protein binding radioassay. Journal of Clinical Endocrinology and Metabolism 27: 973.CrossRefGoogle Scholar
Nvota, J., Lamosova, D. and Cierna, V. (1972). Vyznam zasachov prostredia u kurciat v embryonalnom oddobi. Biologia (Bratislava) 27: 869.Google Scholar
Nvota, J., Lamosova, D. and Faberova, A. (1973). Critical periods in the developments of chicks. Physiologia Bohemoslovaca 22: 337.Google ScholarPubMed
Scott, J. P. (1962). Critical periods in behavioural development. Science 138: 949.CrossRefGoogle Scholar
Svetlov, P. G. (1960). Theory of critical periods and influence of environment on ontogenesis. Voprosy tsytologii i obtchey physiologii. Moscow, N 2. p. 263 (in Russian).Google Scholar
Weiss, J., Kohler, W. and Landsberg, J. -W. (1977). Increase of corticosterone level in duckling during the sensitive period of the following response. Developmental Psychobiology 10: 59.CrossRefGoogle ScholarPubMed
Wise, P. M. and Frye, B. E. (1973). Functional development of hypothalamo-hyophyseal-adrenal cortex axis in the chick embryo, Gallus domesticus. Journal of Experimental Zoology 185: 277.CrossRefGoogle ScholarPubMed