1. Frohmann LA, Downs TR, Chomczynski P. Regulation of growth hormone secretion. Front Neuroendocrinol 1992;13:344-405.
2. Clark RG, Robinson ICAF. Growth induced by pulsatile infusion of an amidated fragment of human growth hormone releasing factor in normal and GHRF-deficient rats. Nature 1985;314:281-283.
3. Clark RG, Robinson ICAF. Growth hormone responses to multiple injections of a fragment of human growth hormone-releasing factor in conscious male and female rats. J Endocr 1985;106:281-289.
4. Kovacs M, Fancsik A, Hrabovsky E, Mezo I, Teplan I, Flerko B. Effects of continuous and repetitive administration of a potent analog of GH-RH(1-30)-NH2 on the GH release in rats treated with monosodium glutamate. J Neuroendocrinol 1995;7:703-712.
5. Mason WT, Dickson SL, Leng G. Control of growth hormone at the single cell level, Acta Paediatr Suppl 1993;388:84-92.
6. Chen C, Zhang J, Vincent JD, Israel JM. Somatostatin increases voltage-dependent potassium currents in rat somatotrophs. Am J Physiol 1990;259:C854-861.
7. Chen C, Zhang J, Vincent JD, Israel JM. Two types of voltage-dependent calcium current in rat somatotrophs are reduced by somatostatin. J Physiol 1990;425:29-42.
8. Suzuki M, Kato M. Somatostatin pretreatment facilitates GRF-induced GH release and increase in tree calcium in pituitary cells. Biochem Biophys Res Comm 1990;172:276-281.
9. Herbison AE. Sexually dimorphic expression of androgen receptor immunoreactivity by somatostatin neurones in rat hypothalamic periventricularnucleus and bed nucleus of the strict terminalis. J Neuroendocrinol 1995;7:543-554.
10. Kato M. Withdrawal of somatostatin augments L-type Ca2+ current in primary cultured rat somatotrophs. J Neuroendocrinol 1995;7:855-859.
11. Clark RG, Carlsson LMS, Rafferty YB, Robinson ICAF. The rebound release of growth hormone (GH) following somatostatin infusion in rats involves hypothalamic growth hormone releasing factor release. Endocrinology 1988;119:40,397-40,479
12. Mitani M, Hidesuke K, Abe H, Chihara K. Growth hormone (GH)-releasing peptide and GH releasing hormone stimulate GH release from subpopulations of somatotrophs in rates. J Neuroendocrinol 1996;8:825-830.
13. Stephens E, Brown D, Leng G, Smith RG. A model of the pituitary release of growth hormone. Proc. Conference on Information Processing in Cells and Tissues, Liverpool, September, 1995, pp. 342-354.
14. Brazeau P, Ling N, Bohlen P, Esch F, Ying S-Y, Guillemin R. Growth hormone releasing factor, somatocrinin, release pituitary growth hormone in vitro. Proc Natl Acad Sci USA 1982;79,7909-7913.
15. Chay TR, Fan YS, Lee YS. Bursting, spiking, chaos, fractals and universality in biological rhythms. Int J Bifurcations Chaos 1995;5:595-635.
16. Tang Y, Stephenson JL, Othmer HG. Simplification and analysis of models of calcium dynamics based on IP3-sensitive calcium channel kinetics. Biophys J 1996;70:246-263.
17. Heidelberger R, Heinemann C, Neher E, Matthews G. Calcium-dependence of the rate of exocytosis in a synaptic terminal. Nature 1994;371:513-515.
18. Goldbeter A. Biochemical Oscillations and Cellular Rhythms: the Molecular Bases of Periodic and Chaotic Behaviour, Cambridge University Press, Cambridge, UK, Chapter 8, 1996.
Was this article helpful?