References
- Childs G V. Cytochemical studies of multifunctional gonadotropes. Microsc Res Tech 1997; 39: 114–30
- De Prins J, Hecquet B. Data processing in chronobiology studies. Biological rhythms in clinical and laboratory medicine, Y Touitou, E House. Springer-Verlag, Heidelberg 1992; 90–113
- Hastings M H. The vertebrate clock: localization, connection and entrainment. Physiology and pharmacology of biological rhythms, P H Redfern, B Lemmer. Springer-Verlag, Heidelberg 1997; 1–28
- Honma K I. Endogenous ultradian rhthms in rats exposed to prolonged continuous light. Am J Pharmacol 1978; 235(5)R250–56
- Honma K I, Hiroshige T. Internal synchronization among several circadian rhythms in rats under constant light. Am J Physiol 1978; 235(5)243–49
- Lewy H, Haus E, Naor Z, Ashkenazi I E. Multifrequency time structure in LH, prolactin and Cortisol plasma concentrations. Biological clocks. Mechanisms and application, Y Touitou. Elsevier Life Sciences, Amsterdam 1998; 431–34
- Lewy H, Naor Z, Ashkenazi I E. Rhythmicity of luteinizing hormone secretion expressed in vitro. Eur J Endocrinol 1996; 135: 455–63
- Naor Z, Azrad A, Limor R, et al. Gonadotropin-releasing hormone activates a rapid Ca2 independent phosphodiester hydrolysis of phosphoinositides in pituitary gonadotrophs. J Biol Chem 1986; 261: 12506–12
- Peleg L, Nesbitt M N, Ashkenazi I E. Strain dependent response of circadian rhythms during exposure to continous illumination. Life Sci 1989; 44: 893–900
- Rawling S R, Barry D J, Leong D A. Evidence for localized calcium mobilization and influx in single rat gonadotropes. J Biol Chem 1991; 266: 22755–60
- Veldhuis J, Johnson M L. Operating characteristics of the hypothalamo pituitary gondal axis in men: circadian ultradian and pulsatile release of prolactin and its temporal coupling with LH. J Clin Endocrinol Metab 1988; 67: 116–23