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Roti Е., Fang S.L., Green К. et al. Human placenta is an active site of thyroxine and
3,3,5-triiodothyronine tyrosyl ring deiodination // J. Clin. Endocrinol. Metabol. 1981. Vol. 53. P. 498-501.
Roti E., Gnudi A., Rohuschi G. et al. Human cord blood concentration of thyrotropin, thyroglobulin and iodothyronines following maternal administration of thyrotropin releasing hormone // Ibid. 1981. Vol. 53. P. 813-817.
Roti E., Rohuschi G., Alhoni A. et al. Inhibition of foetal growth hormone (GH) and thyrotropin (TSH) secretion after maternal administration of somatostatin // Acta endocrinol.
1984. Vol. 106. P. 393-399.
Rudman D., Hollins B.M., Lewis N.C., Chawla R.K. Effects of melanotropic peptides
fetal adrenal gland //J. Clin. Invest. 1980. Vol. 65. |
P. 822-828. |
|
|
Rudolf Т., Filler Т., Wittkowski E. Pars tuberalis specific cells |
within |
the pars distalis |
|
of the adenohypophysis: An ontogenetic study |
// Ann. Anat. |
1993. |
Vol. 175, N 2. |
P. 171-176. |
|
|
|
Ruggiero D.A., Baker H., Joh Т.Н., Reis D.J. Distribution of catecholamine neurons in
the hypothalamus and preoptic region |
of mouse // J. Сотр. Neurol. 1984. Vol. 224. |
P. 556-582. |
|
Rundle S.E., Funder J.W. Ontogeny of corticotropin-releasing factor and arginine vaso- |
|
pressin in the rat // Neuroendocrinology. |
1988. Vol. 47. P. 303-312. |
Sadun A.A., Schaechter J.D., Smith L.E.H. A retinohypothalamic pathway in man: Lig mediation of circadian rhythms // Brain Res. 1984. Vol. 302. P. 371-377.
Saffran M., Schally A.V., Benfey B.G. Stimulation of corticotropin from the adenohypophysis by a neurohypophysial factor // Endocrinology. 1955. Vol. 57. P. 439-444.
Said S.I. Vasoactive intestinal polypeptide: Biologic role in health and disease //Trends
Endocrinol. Metabol. 1991. Vol. 2. P. 107-112.
Saitoh Y., Luchansky L.L., Claude P.. Terasawa E. Transplantation of the fetal olfactor code restores reproductive cycles in female rhesus monkeys (Macaca mulatta) bearing lesions in the medial basal hypothalamus // Endocrinology. 1995. Vol. 136, N 6. P. 2760-2769.
Sakanaka M., Magari S., Inoue N. Somatostatin co-localizes with tyrosine hydroxylase in the nerve cells of discrete hypothalamic regions in rats // Brain Res. 1990. Vol. 516.
P. 313-317.
Sales N.. Martres M.P., Bouthenet M.L., Schwartz J.C. Ontogeny of dopaminergic D receptors in the rat nervous system: Characterization and detailed autoradiographic mapping
with ['25i]iodosuplride // Neuroscience. 1989. Vol. 28. P. 673-700.
Salisbury R.L., Dudley S.D., WeiszJ. Effect of gonadotrophin-releasing hormone on cir culating levels of immunoreactive luteinizing hormone in fetal rats // Neuroendocrinology. 1982. Vol. 35. P. 265-269.
Sarkar D.K., Gottschall P.E., Meites J. Damage to hypothalamic dopaminergic neurons is associated with development of prolactin-secreting pituitary tumors // Science. 1982. Vol. 218. P. 684-686.
Sarkar D.K., Gottschall P.E.. Xie Q.-W. Reduced tuberoinfundibular dopaminergic neuronal function in rats with in situ prolactin-secreting pituitary tumors // Neuroendocrinology. 1984. Vol. 38. P. 498-503.
Sarkar O.K., Yen S.M. Hypeфrolactinemia decreases the luteinizing hormone-releasing hormone concentration in pituitary portal plasma: A possible role for p-endoфhin as a medi-
ator// Endocrinology. 1985. Vol. 116. P. 2080-2084.
Sasaki A., Shinkawa O., Margioris A.N. et al. Immunoreactive corticotropin-releasing hormone in human plasma during pregnancy, labor, and delivery // J. Clin. Endocrinol. Metabol. 1987. Vol. 64. P. 224-229.
Sato S.M.. Mains R E. Posttranslational processing of proadrenocorticotropin/endoфhinderived peptides during postnatal development in the rat pituitary // Endocrinology. 1985. Vol. 117. P. 773-786.
280
Рекомендовано к изучению сайтом МедУнивер - https://meduniver.com/
Sato S.M., Mains R.E. Regulation of ас]гепосог11со1гор1п/епс1офН1п-ге1а1е(1 peptide secretion in neonatal rat pituitary cultures // Endocrinology. 1986. Vol. 119. P. 793-801.
Sato S.M., Mains R.E. The synthesis and processing of pro-ACTH/endoфhin in the developing rat pituitary // Ann. N.Y. Acad. Sci. 1987. Vol. 512. P. 286-299.
Satoh Т., Yamada M., Feng P. et al. Postnatal ontogeny of the thyrotropin-releasing hor- mone receptor messenger ribonucleic acids in the forebrain // Neuropepides. 1997. Vol. 31, N4. P. 351-355.
Sawada M. A study of functional development of hypothalamo-hypophyseo-gonadal system in human fetuses // Nichidai Igaku Zasshi. 1976. Vol. 35. P. 945-951.
Sawchenko P.E., Swanson L.W. Growth hormone releasing hormone // Handbook of chemical neuroanatomy / Ed. A. Hokfelt et al. Amsterdam: Elsevier, 1990. Vol. 9, pt 2. P. 131-163.
Sawchenko P.E., Swanson L.W., RivierJ., Vale W.W. The distribution of growth hor- mone-releasing factor (GRF) immunoreactivity in the central nervous system of the rat: An immunohistochemical study using antiserum directed against rat hypothalamic GRF // J. Сотр. Neurol, 1985. Vol. 237. P. 100-115.
Schaeffer J.M., Brownstein M. Ontogeny of TRH-like material in several regions of the rat brain // Brain Res. 1980. Vol. 182. P. 207-210.
Schally A.V., Arimura A., Baha Y. et al. Isolation and properties of the FSHand LH- releasing hormone II Biochem. Biophys. Res. Commun. 1971. Vol. 43. P. 393-399.
Schamhra U.B., Duncan G.E., Breese G.R. et al. Ontogeny of 0]д and D2 dopamine receptor subtypes in rat brain using in situ hybridization and receptor binding. Die Lichtempfindlichkeit blinder Elritzen (Untersuchungen uber das Zwischenhirn der Fische. I) //Ztschr. vergl. Physiol. 1994. Bd. 7, H. 1. S. 1-38.
Scharrer E. Die Lichtempfindlichkeit blinder Elritzen: Untersuchungen iiber das
Zwischenhirn der Fische. I //Ztschr. vergl. Physiol. 1928. Bd. 7, H. 1. S. 1-38.
Schechter J., Gash D., Ahmad N. Neuroembryogenesis of ventral hypothalamus transplanted to kidney capsule // Cell Tissue. Res. 1978. Vol. 190. P. 247-254.
Schechter J., Gash D., Ahmad N. Estradiol stimulation of pituitary primordia transplanted to the kidney capsule // Ibid. 1982. Vol. 227. P. 41-53.
Schechter J., Gash D., Ahmad N. Mesenchymal influences of the development of the
adenohypophysis in the rat // Ibid. 1985. Vol. 241. P. 67-76.
Schilling K., Schmale H., Oeding P., Pilgrim Ch. Regulation of vasopressin expression in cultured diencephalic neurons by glucocorticoids // Neuroendocrinology. 1991. Vol. 53. P. 528-535.
Schimchowitsch S., Pianle M., Klein MJ., Stoeckel M.E. Ontogenesis of the rabbit pitu- itary intermediate lobe: An ultrastructural and immunocytochemical study // Anat. Embryol. 1993. Vol. 187. P. 87-97.
Schimchowitsch S., Stoeckel M.E., Schmitt G., Porte A. Controle stimulant par Госу- tocine (ou un peptide analogue) du lobe interm6diaire de I'hypophyse chez le Lapin. R ie inhibiteur de la serotonine // C.r. Acad. sci. D. 1985. Vol. 300. P. 283-286.
Schlumpf M., Lichtensteiger W., Shoemaker WJ., Bloom F.E. Fetal monoamine sys- tems; Early stages and cortical projections // Biogenic amines in development // Ed. H. Pan/ez and S. Parvez. Amsterdam: Elsevier, 1980. P. 567-590.
Schmidt A., Jard S., Dreifuss ./J., Trihollet E. Oxytocin receptors in rat kidney during development// Amer. J. Physiol. 1990. Vol. 259. P. 872-881.
Schmitt G., Stoeckel M.E., Koch B. Evidence for a possible dopaminergic control of pituitary
alpha-MSH during ontogenesis in mice // Nauroendocrinology. 1981. Vol. 33. P. 306-311.
Schwall R.H., Nikolics K., Szonyi E. et al. Recombinant expression and characterization of human activin//J. Mol. Endocrinol. 1988. Vol. 2. P. 1237-1242.
Schwanzel-Fukuda M., Bick D.. Pfaff D. Luteinizing hormone-releasing hormone
(LHRH)-expressing cells do not migrate normally in an inherited hypogonadal (Kallmann) syndrome // Mol. Brain Res. 1989. Vol. 6. P. 311-326.
281
Schwanzel-Fukuda М., Morrell J.I., Pfajf D.W. Ontogenesis of neurons producing luteinizing hormone-releasing hormone (LH-RH) in the nervus terminalis of the rat // J. Сотр. Neurol. 1985. Vol. 238. P. 348-364.
Schwanzel-Fukuda M., Pfajf W. Origin of luteinizing hormone-releasing hormone neu-
rons //Nature. 1989. Vol. 338. P. 161-163.
Schwanzel-Fukuda M., Robinson J.A., Silverman A J. The fetal development of the luteinizing hormone-releasing hormone (LHRH) neuronal systems of the guinea pig brain // Brain Res. Bull. 1981. Vol. 7. P. 293-315.
Schwanzel-Fukuda M., Zheng LM., Bergen H. et al. LHRH neurons: Functions and development//The human hypothalamus in health and disease. Amsterdam: Elsevier, 1992. P. 189-201. (Progr. Brain Res.; Vol. 93).
Schwartzherg D.G., Nakane P.K. Ontogenesis of adrenocorticotropin-related peptide determinants in the hypothalamus and pituitary gland of the rat II Endocrinology. 1982. Vol. 110. P. 855-864.
Scott D.E. Fetal hypothalamic transplants in diabetic rats analysed by scanning electron microscopy // Neurosci. Lett. 1985. Vol. 61. P. 159-164.
Scott D.E., Kelsick N. The neurovascular organization and integration of fetal hypothalamic transplants in the third cerebral ventricle of the Brattleboro rat // Neural grafting in
the mammalian |
CNS / |
Ed. A. BjorkJund, |
U. Stenevi. |
Amsterdam; |
Elsevier, 1985. |
P. 629-^36. |
|
|
|
|
|
Scott D.E., |
Sherman |
D.M. Neuronal and |
neurovascular |
intergration |
following trans- |
plantation of the fetal hypothalamus into the third cerebral ventricle of adult Brattleboro rats:
Neurological transplants // Brain Res. Bull. 1984. Vol. 12. P. 453-467.
Scott R.EM., Autelitano D.J., Lugo D.l. et al. Development changes in levels of pro- opiomelanocortin intron A-containing geterogenous nuclear RNA and mature messenger RNA in the anterior and neurointermediate lobes of the rat pituitary // Mol. Endocrinol. 1990. Vol. 4. P. 812-820.
Scott R.E.M., Pintar J.E. Development regulation of proopiomelanocortin gene expression in the fetal and neonatal rat pituitary // Mol. Endocrinol. 1993. Vol. 7. P. 585-596.
Seehurg P.H., Adelman J P. Characterization of cDNA for precursor of human luteini-
zing hormone releasing hormone // Nature. 1984. Vol. 311. P. 666-668.
Selim M., Glass J.D., Hauser U.E., Rea M.A. Serotoninergic inhibition of light-induce fos protein expression and extracellular glutamate in the suprachiasmatic nuclei // Brain Res. 1993. Vol. 621. P. 181-188.
Seo H. Growth hormone and prolactin: Chemistry, gene organization, biosynthesis, and regulation of gene expression // The pituitary gland / Ed. H. Imura. N.Y.: Raven press, 1985. P. 57-82.
Shah G.N., Hymer W.C. Prolactin variants in the rat adenohypophysis II Mol. Ceil.
Endocrinol. 1989. Vol. 61. P. 97-107.
Shibata S., Moore R.Y. Development of neuronal activity in the rat suprachiasmatic nucleus//Develop. Brain Res. 1987. Vol. 34. P. 311-315.
Shibata S., Moore R.Y. Development of a fetal circadian rhythm after disruption of the maternal circadian system II Ibid. 1988. Vol. 41. P. 311-317.
Shimada S., Kitayama S., Lin C.L. et al. Cloning and expression of a cocaine-sensitive dopamine transporter complementary DNA // Science. 1991. Vol. 254. P. 576-578.
Shioda S., Kohara H., Nakai Y. TRH axon terminals in synapses with GRF neurons in the arcuate nucleus of the rat hypothalamus as revealed by double labeling immunocytochemistry // Brain Res. 1987. Vol. 402. P. 355-358.
Shiosaka S. Ontogeny of the central somatostatinergic system // Handbook of chemical neuroanatomy, ontogeny of transmitters and peptides in the CNS / Ed. A. Bjorklund et al. Amsterdam: Elsevier, 1992. Vol. 10. P. 369-398.
2ЯР
Рекомендовано к изучению сайтом МедУнивер - https://meduniver.com/
Shiosaka S., Takatsuki K., Sakanaka M. et al. Ontogeny of somatostatin-containing n ron system of the rat: immunohistochemical analysis. II: Forebrain and diencephalon // J. Сотр. Neurol. 1992. Vol. 204. P. 211-224.
Shirasawa N., Yoshimwa F. Immunohistochemical and electron microscopical studies on mitotic adenohypophysial cells in different ages of rats // Anat. Embryol. 1982. Vol. 165. P. 51-61.
Shivers B.D., Harlan R., Morrell J., Pfajf D.W. Absence of oestradiol concentration cell nuclei of LHRH-immunoreactive neurons // Nature. 1983. Vol. 304. P. 345-347.
Shupnik M.A. Gonadotropin gene modulation by steroids and gonadotropin-releasing
hormone // Biol. Reprod. |
1996. Vol. 54. P. 279-286. |
Shyr 5.W., Crowley |
W.R., Grosvenor C.E. Effect of neonatal prolactin deficiency on |
prepubertal tuberoinfundibular and tuberohypophysial dopaminergic neuronal activity // Endocrinology. 1986. Vol. 119. P. 1217-1221.
Siddique A., Gilmore |
D P. Androgen |
influence on serotoninergic neuronal |
systems in |
||||
the neuroendocrine brain // Neuroscience. |
1987. Vol. 22, suppl. P. 154. |
|
|
||||
Siddiqui A., Gilmore |
D P. Regional differences in the catecholamine content of the rat |
||||||
brain: effects of neonatal castration and androgenization // Acta endocrinol. 1988. Vol. |
118. |
||||||
P. 483--494. |
|
|
|
|
|
|
|
Silver |
J. Abnormal development of the suprachiasmatic nuclei of the hypothalamus |
||||||
in a strain |
of genetically |
anophthalmic |
mice // J. Сотр. |
Neurol. 1977. |
Vol. |
176. |
|
P. 589-606. |
|
|
|
|
|
|
|
Silver |
R., Lehman M.N., Gibson M. et al. Dispersed cell |
suspensions of |
fetal |
SCN |
|||
restore circadian rhythmicity |
in SCN-lesioned adult hamsters // Brain Res. 1990. Vol. |
525. |
|||||
P. 45-58. |
|
|
|
|
|
|
|
Silverman A.-J., Zimmerman E.A., Kokoris G.J., Gibson M.J. Ultrastructure of gonadotropin-releasing hormone neuronal structures derived from normal fetal preoptic area and transplanted into hypogonadal mutant (hpg) mice // J. Neurosci. 1986b. Vol. 6.
P. 2090-2096.
Silverman R.C., Silverman A.-J., Gibson MJ. Identification of gonadotropin releasi hormone (GnRH) neurons projecting to the median eminence from third ventricular preop-
tic area grafts in hypogonadal mice // Brain Res. 1989. Vol. 501. |
P. 260-268. |
|||
Silverman |
W.F., Walsh RJPosner |
B.I. The |
ontogeny of |
specific prolactin binding |
sites in the rat |
choroid plexus // Develop. Brain Res. |
1986a. Vol. |
24. P. 11-19. |
|
Simerly R.B. Hormonal control of the development and regulation of tyrosine hydroxylase expression within a sexually dimoфhic population of dopaminergic cells in the hypo-
thalamus // Mol. Brain Res. 1989. Vol. 6. P. 297-310.
Simerly R.B., Swanson L.W., Gorski R.A. Demonstration of sexual dimoфhism in th distribution of serotonin-immunoreactive fibers in the medial preoptic nucleus of the rat // J.
Сотр. Neurol. 1984. Vol. 225. P. 151-166.
Simerly R.B., Swanson L.W., Handa RJ., Gorski R.A. Influence of perinatal androg on the sexually dimoфhic distribution of tyrosine hydroxylase-immunoreactive cells and fibers in the anteroventral periventricular nucleus of the rat // Neuroendocrinology. 1985a. Vol. 40. P. 501-510.
Simerly R.B., Swanson L.W., Gorski R.A. Reversal of the sexually dimoфhic distribution of serotonin-immunoreactive fibers in the medial preoptic nucleus by treatment with
perinatal androgen // Brain Res. 1985b.' Vol. 340. P. 91-98.
Simerly R.B., Young B.J., Capozza M.A., Swanson L.W. Estrogen differentially r lates neuropeptide gene expression in a sexually dimoфhic olfactory pathway // Proc. Nat. Acad. Sci. US. 1989. Vol, 86. P. 4766-^770.
Simmons R.D., Kellog O.K., Miller R.K. Prenatal diazepam exposure in rats: Long-las- ting, receptor-mediated effects on hypothalamic norepinephrine-containing neurons // Brain Res. 1984. Vol. 293. P. 73—83.
283
Sitnpkins J.W., Bruni J.F., Mioduszewski RJ., Meites J. Serum and pituitary TSH and response to TRH in developing male and female rats 11 Endocrinology. 1976. Vol. 98.
P. 1365-1406.
Simpkins J.W., Kalra S.P., Kaira P.S. Variable effects of testosterone on dopamine activity in several microdissected regions in the preoptic area and medial basal hypothala-
mus // Ibid. 1983. Vol. 112. P. 665^69.
Sinding C., Seif S.M., Robinson A G. Levels of neurohypophyseal peptides in the rat during first month of life. 1. Basal levels in plasma, pituitary, and hypothalamus // Ibid.
1980a. Vol. 107. P. 749-754.
Sinding C., Robinson A G., Seif S.M. Levels of neurohypophyseal peptides in the rat during the first month of life. 2. Response to physiological stimuli // Ibid. i980b. Vol. 107.
P. 755-760.
Sinding C., Robinson A.G., Seif S.M., Schmid P.G. Neurohypophysial peptides in the
developing rat fetuses // Brain Res. 1980c. Vol. 195. P. 177-186.
Sinha Y.N., Klemcke H.G., Maurer R.R., Jacobsen B.P. Ontogeny of glycosylated a nonglycosylated forms of prolactin and growth hormone in porcine pituitary during fetal life
//Proc. Soc. Exp. Biol. Med. 1990. Vol. 194. P. 293-300.
Slabaugh M.S., Lieberman M.E., Rutledge J.J., Gorski J. Ontogeny of growth hormon and prolactin gene expression in mice II Endocrinology. 1982. Vol. 110. P. 1489-1497.
Sladek C.D., Armstrong W.E. Effect of neurotransmitters and neuropeptides on vasopressin release // Vasopressin: Principles and properties / Ed. D.M. Gash and G.J. Boer.
N.Y.: Plenum press, 1987. P. 275-333.
Slob A.K., Ooms M.P., Vreeburg J.T.M. Prenatal and postnatal sex differences in plas- ma and gonadal testosterone and plasma luteinizing hormone in female and male rats // J.
Endocrinol. 1980. Vol. 87. P. 81-87.
Smale L., Blanchard J., Moore R.Y., Morin L P. Immunocytochemical characterizatio of the suprachiasmatic nucleus and the intergeniculate leaflet in the diurnal ground squirel, spermophilus lateralis // Brain Res. 1991. Vol. 563. P. 77-86.
Smers G., Velkeniers В., Finne E. et al. Postnatal development of growth hormone and prolactin cells in male and female pituitary: An immunohistochemical light and electron
microscopic study//J. Histochem. Cytochem. 1987. Vol. 35. P. 335-342.
Smets G., Velkeniers В., Herregodts P. et al. Ontogeny of hormone-secreting cells of the rat pituitary gland: An immunocytochemical study on dissociated cells // J. Histochem.
1989. Vol. 21. P. 337-342.
Snijdewint F.G.M., Van Leeuwen F.W., Boer G.J. Ontogeny of vasopressin and oxy- tocin binding sites in the brain of Wistar and Brattleboro rats as demonstrated by light microscopical autoradiography // J. Chem. Neuroanat. 1989. Vol. 2. P. 3-17.
Sofroniew M.V. Vascular and neural projections of hypothalamic neurons producing neurohypophysial or ACTH-related peptides // Neuroendocrinology of vasopressin, cortico-
liberin and opiomelanocortins |
/ Ed. A.J. Baertschi, J.J. Dreifuss. L.: Acad, |
press, |
1982. |
P. 73-86. |
|
|
|
Sofroniew M.V. Vasopressin and oxytocin in the mammalian brain and |
spinal |
cord // |
|
Trends Neurosci. 1983. Vol. 6. |
P. 467^72. |
|
|
Sokka Т., Hiihtaniemi I.T. Ontogeny of gonadotrophin receptors and gonadotrophin stimulated cyclic AMP production in the neonatal rat ovary //J. Endocrinol. 1990. Vol. 127.
P. 297-303.
Spatola E., Pescovitz O.H., Marsh K. et al. Interaction of growth hormone-releasing hormone with the insulin-like growth factors during prenatal development in the rat //
Endocrinology. 1991. Vol. 129. P. 1193-1200.
Specht L.A., Picket V.M., Joh Т.Н., Reis D.J. Light-microscopic immunocytochemica localization of tyrosine hydroxylase ш prenatal rat brain. 2. Late ontogeny // J. Сотр. Neurol. 1981a. Vol. 199. P. 233-253.
284
Рекомендовано к изучению сайтом МедУнивер - https://meduniver.com/
Swaab D.F., Hofman МЛ., НоппеЫег М.В.О.М. Development of vasopressin neuron in the human suprachiasmatic nucleus in relation to birth // Develop. Brain Res. 1990. Vol. 52. P. 289-293.
Swaab D.F., Mirmiran M. Functional teratogenic effects of chemicals on the developing brain // Monogr. Neural Sci. 1986. Vol. 12. P. 45-57.
Swaab D.F., Visser M. A function for a-MSH in fetal development and the presence of an
a-MSH-like compound in nervous tissue // Front. Hormone Res. 1977. Vol. 4. P. 170-178.
Swanson L.W., Sawchenko P.E., Lind R.W. Regulation of multiple peptides in CRF pa vocellular neurosecretory neurons: Implications for the stress response // Progr. Brain Res. 1986. Vol. 68. P. 169-190.
Szot P., Myers K.M., Dorsa D M. Effect of vasopressin administration and deficiency upon ^H-AVP binding sites in the CNS and periphery during development //Peptides. 1992. Vol. 13. P. 389-394.
Taira Т., Smith S.E. Effect of postnatal exposure to a GAB A agonist muscimol on agerelated changes in hypюthalamic noradrenaline concentration in rats // Neurotoxicol. Teratol.
1993. Vol. 15. P. 211-214.
Takagi S., Yoshida Т., Tsuhata K. et al. Sex differences in fetal gonadotropins and androgens // J. Steroid Biochem. 1977. Vol. 8. P. 609-620.
Takahashi S., Miyatake M. Immuno-electron microscopical study of prolactin cells in the rat; Postnatal development and effects of estrogen and bromocryptine // Zool. Sci. Tokyo. 1991. Vol. 8. P. 549-559.
Talamantes F., Ogren L. The placenta as an endocrine organ: Polypeptides // The physiology of reproduction / lid. E. Knobil, J. Neill. N.Y.: Raven press, 1988. P. 2093-2144.
Tamura Т., Minaguschi H., Sakamoto S. Responsiveness of human fetal pituitary to hypothalamic hormones in vitro//Endocrinol. Jap. 197. Vol. 70. P. 545-553.
Tanaka S., Kurosumi K. Differential subcellular localization of ACTH and a-MSH in
corticotropes of the rat anterior pituitary // Cell Tissue Res. 1986. Vol. 243. P. 229-238.
Tapanainen J., Kellokumpu-Lehtinen P., Pelliniemi L.. Huhtaniemi I. Age-relate changes in endogenous steroids of human fetal testis during early and midpregnancy // J.
Clin. Endocrinol. Metabol. 1981. Vol. 52. P. 98-102.
Tapia-Arancibia L., Parez-Herbute N., Astier H. Calcium dependence of somatostatin
(SRIF) release and cyclic AMP levels in cultured diencephalic neurons // Neuroendocrinology. 1989. Vol. 49. P. 555-560.
Taylor A.L., Fishman L.M. Corticotropin-releasing hormone // New England J. Med.
1988. Vol. 319. P. 213-222.
Taylor Т., Gyves P., Burgunder J.M. Thyroid hormone regulation of TRH mRNA levels in rat paraventricular nucleus of the hypothalamus changes during ontogeny // Neuroendocrinology. 1990. Vol. 52. P. 262-267.
Teitelman G., Jaeger C.B., Albert V. et al. Expression of amino acid decarboxylase in proliferating cells of the neural tube and notochord of developing rat embryo // J. Neurosci. 1983. Vol. 3. P. 1379-1388.
Theodoropoulos T.J. Somatostatin is a regulator of thyrotropin secretion in the perina-
tal rat II Endocrinology. 1985. Vol. 4. P. 1683-1686.
Theodoropoulos TJ., Braverman L.E., Vagenakis A G. Thyrotropin-releasing hormone is not required for thyrotropin secretion in the perinatal rat II J. Clin. Invest. 1979. Vol. 63.
P. 588-594.
Thoenen H., Barde Y.A., Edgar differentiation of neurons // Repair 1982. P. 173-185.
D. Factors involved in the regulation of the survival and and regeneration of the nervous system. В.: Springer,
Thomas G.B., McNeilly A.S., Brooks A.N. Development of gonadotrophs and thy- rotrophs in the female foetal sheep pituitary: Immunocytochemical localization studies II J. Neuroendocrinol. 1993. Vol. 5. P. 157-161.
286
Рекомендовано к изучению сайтом МедУнивер - https://meduniver.com/
Tramu G., Filler A., Leonardelli J. Serotonin axons of the ependyma and circumventricular organs in the forebrain of the guinea pig: An immunohistochemical study // Cell
Tissue Res. 1983. Vol. 228. P. 297-311.
Tremhleau A., Ugrumov M., Roche D., Galas A. Vasopressin and oxytocin gene expres sions in intact rats and under the catecholamine deficiency during ontogenesis // Brain Res.
Bull. 1995. Vol. 37. P. 437-^48.
Trihollet E., Gharpak S.. Schmidt A. et al. Appearance and transient expression of oxy tocin receptors in fetal, infant, and peripubertal rat brain studied by autoradiography and
electrophysiology//J. Neurosci. 1989. Vol. 9. P. 1764—1773.
Trihollet E., Goumaz M., Raggenhass M. et al. Early appearance and transient expression of vasopressin receptors in the brain of rat fetus and infant. An autoradiographical and electrophysiological study // Develop. Brain Res. 1991a. Vol. 58.
P. 13-24.
Trihollet E., Goumaz M., Raggenhass M. et al. Appearance and transient expression o
vasopressin |
and |
oxytocin |
receptors |
in |
the rat brain // J. Recept. Res. 1991b. Vol. II. |
P. 333-346. |
|
|
|
|
|
Tsutsiii |
K. Pituitary and gonadal hormone-dependent and -independent induction of fol- |
||||
licle-stimulating |
hormone |
receptors |
in |
the developing testis // Endocrinology. 1991. |
|
Vol. 128. P. 477-487. |
|
|
|
||
Tuomisto JMannisto |
P. Neurotransmitter regulation of anterior pituitary hormones // |
||||
Pharmacol. Rev. |
1985. Vol. 37. P. 249-328. |
||||
Uchida |
K., Toya S. Grafting of genetically manipulated cells into adult brain: Toward |
||||
graft-gene therapy // Keio J. Med. 1996. Vol. 45. P. 81-89.
Ueda S., Aikawa M., Ishizuya-Oka Д., et al. Alteration of serotonergic innervation in th suprachiasmatic nucleus of the rat following removal of input fibers from retina and lateral geniculate nucleus//Neurosci. Lett. 1996. Vol. 211. P. 97-100.
Ueda S., Kawata M., Sano Y. Identification of serotonin and vasopressin immunoreactivities in the suprachiasmatic nucleus of four mammalian species II Cell Tissue Res. 1983. Vol. 234. P. 237-248.
Ueno N.. Ling N., Ying S.-Y. et al. Isolation and partial characterization of follistatin: A single-chain Mr 35,000 monomeric protein that inhibits the release of follicle-stimulating hormone // Proc. Nat. Acad Sci. US. 1987. Vol. 84. P. 82828286.
Ugrumov M.V. Developing hyfюthalamus in differentiation of neurosecretory neurons and in establishment of pathways for neurohormone transport // Intern. Rev. Cytol. 1991. Vol. 129. P. 207-267.
Ugrumov M.V. Development of the hypothalamic monoaminergic system in ontogenesis: Morpho-functional aspects//Zool. Sci. 1992. Vol. 9. P. 17-36.
Ugrumov M.V. Hypothalamic catecholaminergic systems in ontogenesis: Development and functional significance // Phylogeny and development of catecholamine systems in the CNS of vertebrates / Ed. W.J.A.J. Smeets, A. Reiner. Cambridge: Cambridge Univ. press, 1994. P. 435^52.
Ugrumov M.V. Hypothalamic monoaminergic systems in ontogenesis: Development and functional significance // intern. J. Develop. Biol. 1997. Vol. 41. P. 809-816.
Ugrumov M.V., Hisano S., Daikoku S. Topographic relations between tyrosine hydroxylaseand luteinizing hormone-releasing hormone-immunoreactive fibers in the median eminence of adult rats // Neurosci. Lett. 1989a. Vol. 102. P. 159-164.
Ugrumov M.V., Ivanova LP., Milskevich M.S. et al. Axovascular relationships in dev loping median eminence of perinatal rats with special reference to luteinizing hormonereleasing hormone projections // Neuroscience. 1985a. Vol. 16. P. 897-906.
Ugrumov M.V., Milskevich M.S. Development of neuroendocrine regulations during ontogenesis // Sov. Sci. Rev. Sect. F Physiol. Gen. Biol. 1992. Vol. 5. P. 41-96.
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