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PRC Atlas

References

Albers, H.E., C.F. Ferris, S.E. Leeman and B.D. Goldman. 1984. Avian pancreatic
polypeptide phase shifts hamster circadian rhythms when microinjected into the suprachiasmatic region. Science 223: 833-835.

Albers, H.E. and C. F. Ferris. 1984. Neuropeptide Y: role in light-dark cycle entrainment  of hamster circadian rhythms. Neurosci. Lett. 50: 163-168.

Albers, H.E. 1986. Response of hamster circadian system transition between light and darkness. Am. J. Physiol. 250: R708-R711.

Anderson, C.M. and M.B. Wilkins. 1989. Phase resetting of the circadian rhythm of carbon dioxide assimilation in Bryophyllum leaves in relation to their malate content following brief exposure to high and low temperatures, darkness, and 5% carbon dioxide. Planta 180: 61-73 (and resetting to temperature, dark, and carbon dioxide pulses).

Aschoff J. 1965. Response curves in circadian periodicity. In: Circadian Clocks, ed. J. Aschoff (North-Holland, Amsterdam), pp. 95-111 (PRCs for chaffinches).

Balzer, I. and R. Hardeland. l981. Advance phase shifts of the bioluminescence rhythm in Gonyaulax  polyedra by pharmaca potentially acting on membranes. J. Inter. Cycle Res. 12: 29-34.

Barlow, R.B., Jr. 1983. Circadian Rhythms in the Limulus visual system. J.Neurosci.  3:856-870.

Bauer, M.S. 1992. Irradiance responsivity and unequivocal type-1 phase responsivity of rat circadian activity rhythms. Am. J. Physiol. 263: R1110-R1114.

Benson, J. and J. Jacklet. 1977. Circadian rhythm of output from neurons in the eye of Aplysia: IV. A model of the clock: differential sensitivity to light and low temperature pulses. J. Exp. Biol. 70:195-211.

Binkley,  S., G. Muller and R. Hernandez. 1981. Circadian rhythm in pineal N-acetyltransferase activity: phase shifting by light pulses(I). J. Neurochem. 37:798-800.

Binkley,  S., K. Mosher and B. White. 1985. Circadian rhythm in pineal N-acetyltransferase activity: phase shifting by light pulses III. J. Neurochem. 45:875-878.

Binkley, S. and K. Mosher. 1986. Photoperiod modifies circadian resetting responses in sparrows. Amer. J. Physiol. 251:R1156-1162.

Binkley, S. and K. Mosher. 1987. Circadian rhythm resetting in sparrows: early response to doublet light pulses. J. Bio. Rhythms 2: 1-11.

Block, G.D. and D.G. McMahon. 1984. Cellular analysis of the Bulla ocular circadian pacemaker system. III. Localization of the circadian pacemaker. J. Comp. Physiol. A 155: 387-395 (PRC to light pulses).

Bollig, I., K. Mayer, W.-E. Mayer and W. Engelmann. 1978. Effects of cAMP, theophylline, imidazole, and 4-(3,4-dimethoxybenzyl)-2-imidazolidone on the leaf movement rhythm of Trifolium repens - a test of the cAMP hypothesis of circadian rhythms. Planta 141: 225-230.

Boulos, Z. and B. Rusak: 1982. Circadian phase response curves for dark pulses in the hamster. J. Comp. Physiol. A 146: 411-417.

Brinkman, R. 1966. Temperature influsse auf die circadiane Rhythmic von Euglena gracilis. Planta (Berl.) 70: 344-389.

Broda, H., V.D. Gooch, W. Taylor, N. Aiuto and J.W. Hastings. 1986. Acquisition of circadian bioluminescence data in Gonyaulax and an effect of the measurement procedure on the period of the rhythm. J. Biol. Rhythms 1: 251-263.

Broda, H., C.H. Johnson, W.R. Taylor and J.W. Hastings. 1989. Temperature dependence of phase response curves for drug-induced phase shifts. J. Biol. Rhythms 4: 327-333.

Broda, H., C.H. Johnson, W.R. Taylor and J.W. Hastings. 1989. Temperature dependence of phase response curves for drug-induced phase shifts. J. Biol. Rhythms 4: 327-333.

Bruce, V.G. and C.S. Pittendrigh. 1958. Resetting the Euglena clock with single light stimulus. Amer. Nat. 92 (866): 295-306.

Bruce, V.G., F. Weight and C.S. Pittendrigh. 1960. Resetting the sporulation rhythm inn Pilobolus with short light flashes of high intensity. Science 131: 728-730.

Bunning, E. and I. Moser. 1966. Response-Kurven bei der circadianen rhythmik von Phaseolus. Planta (Berl.) 69: 101- 110.

Bunning, E. and I. Moser. 1968. Einfluss des Wassers auf die circadiane Rhythmik von Phaseolus. Naturwiss. 55: 450- 451.

Bunning, E. and I. Moser. 1972. Influence of valinomycin on circadian leaf movements of Phaseolus. Proc. Nat. Acad. Sci. 69: 2732-2733.

Bunning, E. and I. Moser. 1973. Light induced phase shifts of circadian leaf movements of Phaseolus: comparison with the effects of potassium and of ethyl alcohol. Proc. Nat. Acad. Sci. 70: 3387-3389.

Burchard, J.E., Jr. 1958. "Resetting" a biological clock. Ph.D. thesis. Princeton University. 66p.

Cahill, A.L. and C.F. Ehret. 1982. Alpha-Methyl-p-tyrosine shifts circadian temperature rhythms. Am. J. Physiol. 243: R218-R222.

Cahill, G.M. and J.C. Besharse. 1991. Resetting the circadian clock in cultured Xenopus eyecups: regulation of retinal melatonin rhythms by light and D2 dopamine receptors. J. Neurosci. 11: 2959-2971.

Carre, I.A., A.S. Oster, D.L. Laval-Martin and L.N. Edmunds. 1989. Entrainment and phase-shifting of the circadian rhythm of cell division by light in cultures of the achlorophyllons ZC mutant of Euglena gracilis. Curr. Microbiol. 19: 223-229.

Chandrashekaran, M.K., A. Johnsson and W. Engelmann. 1973. Possible "dawn" and "dusk" roles of light pulses shifting the phase of a circadian rhythm. J. Comp. Physiol. 82: 347-356 (light pulses of various durations to Drosophila ) .

Christensen, N.D. and R.D. Lewis. 1982. The circadian locomotor rhythm of Hemideina thoracica (Orthoptera; Stenopelmatidae): the circadian clock a population of interacting oscillators. Physiol. Entomol. 7: 1-13.

Christianson, R. and B.M. Sweeney. 1973. The dependence of the phase response curve for the luminescence rhythm in Gonyaulax on the irradiance in constant conditions. Int. J. Chronobiology 1: 95-100.

Corrent, G., D.J. McAdoo and A. Eakin. 1978. Serotonin shifts the phase of the circadian rhythm from the Aplysia eye. Science 202: 977-979.

Corrent, G., A. Eskin and I. Kay. 1982. Entrainment of the circadian rhythm from the eye of Aplysia: role of serotonin. Am. J. Physiol. 242: R326-R332.

Czeisler, C.A., R.E. Kronauer, J.S. Allan, J.F. Duffy, M.E. Jewett, E.N. Brown and J.M. Ronda. 1989. Bright light induction of strong (Type 0) resetting of the human circadian pacemaker. Science 244: 1328-1333.

Daan, S. and C.S. Pittendrigh. 1976. A functional analysis of circadian pacemakers in nocturnal rodents. II. The variabilliy of phase response curves. J. Comp. Physiol. 106: 253-266.

Daan, S. and C. S. Pittendrigh. 1976. A functional analysis of circadian pacemakers in nocturnal rodents. III. Heavy water and constant light: homeostasis of frequency? J. Comp. Physiol. 106: 267-290.

Dawson, D., L. Lack and M. Morris. 1993. Phase resetting of the human circadian pacemaker with use of a single pulse of bright light. Chronobiol. Int. 10: 94-102.

DeCoursey, P. 1959. Daily activity rhythms in the flying squirrel, Glaucomys volans. Ph.D. thesis, University of Wisconsin.

DeCoursey, P.J. 1960. Daily rhythm of light sensitivity in a rodent. Science 131: 33-35.

DeCoursey, P.J. 1961. Effect of light in the circadian activity rhythm of the flying squirrel. Zeit. Vergl. Physiol. 44: 331- 355.

DeCoursey, P. 1964. Function of a light response rhythm in hamster. J. Cell. Comp. Physiol. 63: 189-196.
DeCoursey, P. J. 1986. Light-sampling behavior in photoentrainment of a rodent circadian rhythm. J. Comp. Physiol. 159: 161-169.

Dharmananda, S. 1980. Studies of the circadian clock of Neurospora crassa: Light-induced phase shifting. Ph.D. thesis, University of California at Santa Cruz.

Dharmananda, S. 1980. Studies of the circadian clock of Neurospora crassa: light-induced phase shifting. Ph.D. thesis, University of California, Santa Cruz. (In addition to PRCs already included in the Atlas, this thesis has light PRCs for other Neurospora mutants: frq 7, frq 8, UV- IV-2, UV-IV-4, UV-IV-7 chr, and prd.)

Dunlap, J., W. Taylor and J.W. Hastings. 1980. The effect of protein synthesis inhibitor on the Gonyaulax clock. I. Phase-shifting effects of cycloheximide. J. Comp. Physiol. 138: 1-8.

Dushay, M.S., R.J. Konopka, D. Orr, M.L. Greenacre, C.P. Kyriacou, M. Rosbash and J.C. Hall. 1990. Phenotypic and genetic analysis of Clock, a new circadian rhythm mutant in Drosophila melanogaster. Genetics 125: 557- 578 (PRCs for D. melanogaster adult activity rhythms: both wild type and "clock". Also see Trends in Genetics, vol. 3, p. 188, for a PRC for adult activity rhythm of per).

Earnest, D.J. and F.W. Turek. 1985. Neurochemical basis for the photic control of circadian rhythms and seasonal reproductive cycles: role for acetylcholine. Proc. Natl. Acad. Sci. 82: 4277-4281 (carbachol PRC).

Eckhardt, D. and W. Engelmann. 1984. Involvement of plasmalemma ATPases in circadian rhythm of the succulent herb Kalanchoe blossfeldiana (Crassulaceae). Indian J. Expt. Biol. 22: 189-194 (PRC to vanadate).

Edmunds, L.N., Jr., D.E. Tay and D.L. Laval-Martin. 1982. Cell division cycles and circadian clocks. Plant Physiol. 70: 297-302.

Ehret, C.F. 1959. Induction of phase shift in cellular rhythmicity by far ultra violet and its restoration by visible radiant energy. In: Photoperiodism and related phenomena in plants and animals (R.B. Withrow, ed.) AAAS, Washington, D.C., pp. 541-550.

Ehret, D.F., V.R. Potter and K.W. Dobra. 1975. Chronotypic action of theophylline and pentobarbital aa circadian zeitgebers in the rat. Science 188:1212-1215.

Elliott, J. 1974. Photoperiodic regulation of testis function in the golden hamster: relation to the circadian system. Univ. Texas, Austin, 248 pp.

Ellis, G.B., R.E. McKlveen and K.W. Turek. 1982. Dark pulses affect the circadian rhythm of activity of hamster kept in constant light. Am. J. Physiol. 242: R44-R50.

Engelmann, W., H.G. Karlsson and A. Johnsson. 1973. Phase shifts in the Kalanchoe petal rhythm, caused by light pulses of different duration. Int. J. Chronobiol. 1: 147-156.

Engelmann, W., I. Eger, A. Johnsson and H.G. Karlsson. 1974. Effect of temperature pulses on the petal rhythm of Kalanchoe: an experimental and theoretical study. Int. J. Chronobiol. 2: 347-358.

Engelmann, W. and J. Mack. 1978. Different oscillators control the circadian rhythm of eclosion and activity in Drosophila. J. Comp. Physiol. 127: 229-237.

Enright, J.T. 1976. Resetting a tidal clock: a phase response curve for Excirolana. In: Biological rhythms in the marine environment (P.J. DeCoursey, ed.), U.S.C. Press, Columbia, S.C., pp. 103-114.

Enright, J.T. 1976. Plasticity in an isopod clockworks: Shaking shapes form and effects phase and frequency. J. Comp. Physiol. 107: 13-37.

Eskin, A. 1971. Some properties of the system controlling the circadian activity rhythm of sparrows. In: Biochronometry (M. Menaker, ed.), Biochronometry, AAAS, washington,D.C., pp. 55-80.

Eskin, A. 1972. Phase shifting a circadian rhythm in the eye of Aplysia by high potassium pulses. J. Comp. Physiol. 80: 353-376.

Eskin, A. 1977. Entraining a circadian rhythm from the isolated aye of Aplysia: the involvement of changes in membrane potential. Soc. Neuroscience Abstracts 3: 176.

Eskin, A. 1982. Increasing external K+ blocks phase shifts in a circadian rhythm produced by serotonin or 8-benzylthio- cAMP. J. Neurobiol. 13: 241-249.

Eskin, A. and G. Corrent. 1977. Effects of divalent cations and metabolic poisons on the circadian rhythm from the Aplysia eye. J. Comp. Physiol. 117: 1-21.

Eskin, A. and J.S. Takahashi. 1983. Adenylate cyclase activation shifts the phase of a circadian pacemaker. Science 220: 82-84.

Eskin, A., J.S. Takahashi, M. Zatz and G.D. Block. 1984. Cyclic GMP mimics the effects of light on a circadian pacemaker in the eye of Aplysia. J. Neuroscience 4: 2466-2471.

Feldman, J. 1967. Lengthening the period of a biological clock in Euglena by cycloheximide, an inhibitor of protein synthesis. Proc. Nat. Acad. Sci. 57: 1080-1087.

Feldman, J.F. 1967. Biochemical and physiological studies on the circadian clock of Euglena. Ph.D. thesis, Princeton University.

Francis, C. and M.L. Sargent. 1979. Effects of temperature pertubations on circadian conidiation in Neurospora. Plant Physiol. 64: 1000-1004.

Franke, H.-D. 1986. Resetting a circalunar reproduction rhythm with artificial moonlight signals: phase response curve and 'moon-off' effect. J. Comp. Physiol. A 159: 569-576 (moonlight signals to the polychaete Typosyllis; this is a circalunar rhythm, not a circatidal rhythm).

Fuentes-Pardo, B. and J. Ramos-Carvajal. 1983. The phase response curve of electroretinographic circadian rhythm of crayfish. Comp. Biochem. Physiol. 74A: 711-714.

Gander, P.H. 1979. The circadian locomotor activity rhythm of Hemideina thoracica (Orthoptera): the effects of temperature perturbations. Int. J. Chronobiol. 6: 243-262.

Gander, P.H. and R.D. Lewis. 1983. Phase resetting action of light on the circadian activity rhythm of Rattus exulans. Am. J. Physiol. 245: R10-R17.

Gerkema, M.P., S. Daan, H. Wilbrink, M. W. Hop and F. van der Leest. 1993. Phase control of ultradian feeding rhythms in the common vole (Microtus arvalis) the roles of light and the circadian system. J. Biol. Rhythms 8: 151-171.

Gibbs, F.P. 1983. Temperature dependence of the hamster circadian pacemaker. Am. J. Physiol. 244: R607-R610.

Goto, K., D.L. Laval-Martin and L.N. Edmunds, Jr. 1985. Biochemical modeling of an autonomously oscillatory circadian clock in Euglena. Science 228: 1284-1288.

Halaban, R. 1968. The circadian rhythm of leaf movement of Coleus blumei X C. frederici, a short day plant. II. The effects of light and temperaturesignals. Plant. Physiol. 43: 1887-1893.

Halaban, R. 1969. Effects of light quality on the circadian rhythm of leaf movement of a short-day plant. Plant Physiol. 44: 973-977.

Hanna, W.J.B., J.A. Horne and G.H. Renninger. 1988. Circadian photoreceptor organs in Limulus. II. The telson. J. Comp. Physiol. A 162: 133-140.

Harrington, M.E. and B. Rusak. 1986. Lesions of the thalamic intergeniculate leaflet alter hamster circadian rhythms. J. Biol. Rhythms 1: 309-325.

Harris, P.J.C. and M.B. Wilkins. 1978. The circadian rhythm in Bryophyllum leaves: phase control by radian energy. Planta 143: 323-328.

Hasegawa, K. and A. Tanakadate. 1987. The Paramecium circadian behavioral rhythm: light phase response curves and entrainment. J. Biol. Rhythms 2: 269-278.

Hastings, J. W. 1964. The role of light in persistent daily rhythms. Chapter 11 in: Photophysiology, Volume 1 (Academic Press: New York), pp. 333- 361.

Hastings, J.W. and B.M. Sweeney. 1958. A persistent diurnal rhythm of luminescence in Gonyaulax polyedra. Biol. Bull. 115: 440-450.
Hoban, T.M. 1984. Light effects on the circadian timing system of a diurnal (Saimiri sciureus) and a nocturnal (Aotus trivigatus) primate. Ph.D. dissertation, State University of New York at Binghamton.

Hoban, T.M. and F.M. Sulzman. 1985. Light effects on circadian timing system of a diurnal primate, the squirrel monkey. Am. J. Physiol. 249:R274-R280.

Honma, K.F. Katabami and T.Hiroshige. 1978. A phase response curve for the locomotor activity rhythm of the rat. Experientia 34:1602-1603.

Honma, K., S. Honma and T.Hiroshige. 1985. Response curve, free-running period, and activity time in circadian locomotor rhythm of rats. Japanese J.Physiol. 35:643-658.

Horne, J.A. and G.H. Renninger. 1988. Circadian photoreceptor organs in Limulus. I. Ventral, median, and lateral eyes. J. Comp. Physiol. A 162: 127-132.

Horne, M.K., 1967. An experimental study of the photoperiodic induction of diapause in Pectinophora gossypiella. B.A. thesis, Princeton University.

Horseman, N.D. and C.F. Ehret. 1982. Glucocorticosteriod injection is a circadian zeitgeber in the laboratory rat., Am. J. Physiol. 243:R373-378.

Illnerova, H. and J. Vanecek. 1982. Complex control of the circadian rhythm in N-acetyltransferase activity in the rat pineal gland. In: Circadian Systems: Structure and Function, eds. J. Aschoff, S. Daan and G. Gross (Springer, Berlin, Heidelberg, New York), pp. 285-296.

Illnerova, H. and J. Vanecek. 1982. Two-oscillator structure of the pacemaker controlling the circadian rhythm of N-acetyltransferase in the rat pineal gland. J. Comp. Physiol. 145: 539-548.

Illnerova, H. and J. Vanecek. 1984. Circadian rhythms in inducibility of rat pineal N-acetyltransferase after brief light pulses at night by a morning oscillator. J. Comp. Physiol. A 154: 739-744.

Illnerova, H. and J. Vanecek. 1985. Entrainment of the circadian rhythm in rat pineal N-acetyltransferase activity under extremely long and short photoperiods. J. Pineal Res. 2: 67-78.

Illnerova, H. and J. Vanecek. 1985. Complex control of the circadian rhythm in pineal melatonin production. In: The Pineal Gland. Current State of Pineal Research, eds. B. Mess, Cs. Ruzsas, L. Tima and P. Pevet (Elsevier, Amsterdam a Adakemia Kiadoo, Budapest), pp. 137-153.

Illnerova, H. and J. Vanecek. 1987. Entrainment of the circadian rhythm in the rat pineal N-acetyltransferase activity by prolonged periods of light. J. Comp. Physiol. A 161: 495-510.

Illnerova, H. and J. Vanecek. 1987. Rat pineal N-acetyltransferase rhythm: a model for circadian studies. EPSG Newsletter, Suppl. 7: 22.

Illnerova, H. and J. Vanecek. 1987. Dynamics of discrete entrainment of the circadian rhythm in the rat pineal N-acetyltransferase activity during transient states. J. Biol. Rhythms 2: 95-108.

Illnerova, H. 1988. Entrainment of mammalian circadian rhythms in melatonin production by light. Pineal Res. Rev. 6, in press.

Inelan-Rubio, V. 1991. Shifting phase on electroretinogram circadian rhythm induced by monochromatic light stimulus in crayfish Procambarus bouvieri. Comp. Biochem. Physiol. 99A: 301-306.

Inouye, S.T., J.S. Takahashi, F. Wollnik and F.W. Turek. 1988. Inhibitor of protein synthesis phase shifts a circadian pacemaker in mammalian SCN. Am. J. Physiol. 255: R1055-R1058 (PRC to anisomycin injections).

Jacklet, J.W. 1974. The effects of constant light and light pulses on the circadian rhythm in the eye of Aplysia. J.Com.Physiol.90:33-45.

Jacklet, J.W. 1977. Neuronal circadian rhythm: phase shifting by a protein synthesis inhibitor. Science 198:69-71.

Jacklet, J.W. 1980. Circadian rhythm from the eye of Aplysia: temperature compensation of the effects of protein synthesis inhibitors. J. Exp. Biol. 84:1-15.

Janik, D. and N. Mrosovsky. 1993. Nonphotically induced phase shifts of circadian rhythms in the golden hamster: activity-response curves at different ambient temperatures. Physiol. & Behav. 53: 431-436.

Johnson, C.H., I. Miwa, T. Kondo and J.W. Hastings. 1989. Circadian rhythm of photoaccumulation in Paramecium bursaria. J. Biol. Rhythms 4:405-415.

Johnson, C.H and J.W, Hastings. 1989. Circadian phototransduction: phase resetting and frequency of the circadian clock of Gonyaulax cells in red light. J. Biol. Rhythms 4:417-437.

Johnson, C.H., T. Kondo and J.W. Hastings. 1991. Action spectrum for resetting the circadian phototaxis rhythm in the CW15 strain of Chlamydomonas. II. cells in dim illumination.  To be submitted.

Johnson, C.H. and T. Kondo. 1992. Light pulses induce "singular" behavior and shorten the period of the circadian phototaxis rhythm in the CW15 strain of Chlamydomonas. J. Biol. Rhythms 7: 313-327.

Johnsson,  A., P.I. Johnsen, T. Rinnan and D. Skrove. 1981. Basic properties of the circadian leaf movements of Oxalis regnelli, and period change due to lithium ions. Physiol. Plant 53:361-367.

Jones, M.D.R., C.M. Cubbin and d. Marsh. 1972. The circadian rhythm of flight activity of the mosquito Anopheles gambiae: the light-response rhythm. J. Exp. Biol. 57:337-346.

Joshi, D. and M.K. Chandrashekaran. 1983. A daylight phase response curve obtained for the circadian rhythm of a bat inside a cave. Ind. J. Expt. Biol. 21: 173-176.

Joshi, D. and M.K. Chandrashekaran. 1985. Spectral sensitivity of the photoreceptors responsible for phase shifting the circadian rhythm of activity in the bat, Hipposideros speoris. J. Comp. Physiol. A 156: 189-198.

Karakashian, M. and Schweiger. 1976. Temperature dependence of cycloheximidesensitive phase of circadian cycle in Acetabularia mediterranea. Proc. Nat. Acad. Sci. 73:3216-3219.

Karakashian and Schweiger. 1976. Circadian properties of the rhythmic system in individual nucleated and enucleated cells of Acetabularia mediterranea. Exp. Cell Res. 97:366-377.

Karakashian, M. and Schweiger. 1976. Evidence for a cycloheximide-sensitive component in the biological clock of Acetabularia. Exp. Cell Res. 98:303-312.

Khalsa, S.B.S. and G.D. Block. 1990. Calcium in phase control of the Bulla circadian pacemaker. Brain Res. 506: 40-45 (PRCs to hyperpolarization and low-calcium-EGTA treatment).

Khalsa, S.B.S. and G.D. Block. 1992. Phase-shifting of a neuronal circadian pacemaker in Bulla gouldiana by pentylenetetrazol. Comp. Biochem.Physiol. 101C: 557-560.

Khalsa, S.B.S., M.R. Ralph and G.D. Block. 1993. The role of extracellular calcium in generating and in phase-shifting the Bulla ocular circadian rhythm. J. Biol. Rhythms 8: 125-139.

King, R.W. and B. G. Cumming. 1972. Rhythms as photoperiodic timers in the control of flowering in Chenonodium rubrum L. Planta 103: 281-301 (red light PRC).

Klein, S., S. Binkley and K. Mosher. 1985. Circadian phase of sparrows: control by light and dark. Photochem. Photobiol. 41:453-457.

Kondo, T. 1982. Phase control of the potassium uptake rhythm by the light signals in Lemna gibba G3. Z. Pflanzenphsiol.   Bd. 107. S. 395-407.

Kondo, T. 1983. Phase shifts of potassium uptake rhythm in Lemna gibba G3 due to light, dark, or temperature pulses. Plant and Cell Physiol. 24:659-665.

Kondo,  T. 1983. Phase shift in the potassium uptake rhythm of the duckweed Lemna gibba G3 caused by an azide pulse. Plant Physiol. 73:605-608.

Kondo, T. 1988. Phase shift of the circadian rhythm of Lemna caused by pulses of a leuccine analog, trifluoroleucine. Plant Physiol. 88:953-958.

Kondo, T. 1989. Comparison of phase shifts of the circadian rhythm of K+ uptake in Lemna gibba G3 by various amino acid analogs. Plant Physiol. 90:1600-1608.

Kondo, T., C.H. Johnson and J.W. Hastings. 1991. Action spectrum for resetting the circadian phototaxis rhythm in the CW15 strain of chlamydomonas. I. Cells in darkness. Plant Physiol. In press.

Konopka, R. 1972. Circadian clock of Drosophila melanogaster. Ph.D. thesis, Cal. Tech., pp. 61-71.

Konopka, R.J. 1979. Genetic dissection of the Drosophila circadian system. Fed. Proc. 38:2602-2605.

Kramm, K. 1971. Circadian activity in the antelope ground squirrel, Ammospermophilus. Ph.D. thesis, Univ. of Calif., Irvine.

Kramm, K.R. 1974. Phase control of circadian activity rhythms in ground squirrels. Die Naturwissenschaften 61:34.

Kramm, K.R. 1975. Entrainment of circadian activity rhythms in squirrels. Amer. Natur. 109:379-389.

Kramm, K.R. 1976. Phase control of ciradian activity in the antelope ground squirrel. J. Interdisciplinary Cycle Res. 7:127-138.

Kramm, K.R. and D.A. Kramm. 1980. Photoperiodic control of circadian activity rhythms in diurnal rodents. Int. J.  Biometeor. 24:65-76.

Lewy, A.J., S. Ahmed, J.M.L. Jackson and R.L. Sack. 1992. Melatonin shifts human circadian rhythms according to a phase-response curve. Chronobiol Int. 9: 380-392.

Lindberg, R. and P Hayden. 1974. Thermoperiodic entrainment of arousal from torpor in the little pocket mouse, Perognathus longimembris. Chronobiologia 1:356-361.

Mack, J. 1980. Das multioszillatorsystem von Drosophila. Ph.D. dissertation, University of Tubingen (light pulse PRCs for Drosophila).

Maier, K.W. 1973. Phase-shifting of the circadian rhythm of eclosion in Drosophila pseudoobscura with temperature pulses. J. Interdiscipl. Cycle Res. 4: 125-135.

Malinowski, J.R., D.L. Laval-Martin and L. N. Edmunds, Jr. 1985. Circadian oscillators,  cell cycles and singularities: light perturbations of the free-running rhythm of cell division in Euglena. J. Comp. Physiol. B 155:257-267.

Maurer, A. and W Engelmann. 1974. Effect of D20 on the circadian rhythm of petal movement of Kalanchoe. Z. Naturforsch 29 (c):469-1 - 469-3.

Mayer, W.-E. 1981. Energy-dependent phases of the circadian clock and the clock -controlled leaf movement in Phaseolus coccineus. Planta 152:292-301.

Mayer, W.-E. and U. Knoll. 1981. Temperature compensation of cycloheximide-sensitive phases of the circadian clocks in the Phaseolus pulvinus. Zeit. pflanzenphys. 103 (5): 412-425.

Mayer, W., R. Gruner and H. Strubel. 1975. Periodenverlangerung und Phasenverschiebungen der circadianen Rhythmik von Phaseolus coccineus L. durch Theophyllin. Planta 125: 141-148 (theophylline PRC).

McMahon, D.G. and G.D. Block. 1987. The Bulla ocular circadian pacemaker. I. Pacemaker neuron membrane potential controls phase through a calcium-dependent mechanism. J. Comp. Physiol. A 161: 335-346 (PRC to depolarization).

Meijer, J.H., E.A. van der Zee and H. Dietz. 1988. Glutamate phase shifts the circadian activity rhythms in hamsters. Neurosci. Lett. 86: 177-183.

Meijer, J.H., E.A. van der Zee and M. Dietz. 1988. The effects of intraventricular carbachol injections on the free-running activity rhythm of the hamster. J. Biol. Rhythms 3: 333-348.

Milette, J.J. and F.W. Turek. 1986. Circadian and photoperiodic effects of brief light pulses in male Djungarian hamsters. Biol. Reprod. 35: 327-335 (light PRC to Phodopus).

Minors, D.S., J.M. Waterhouse and A. Wirz-Justice. 1991. A human phase-response curve to light. Neurosci. Lett. 133: 36-40.

Miwa, I., H. Nagatoshi and T. Horie. 1987. Circadian rhythmicity within single cells of Paramecium bursaria. J. Biological Rhythms 2: 57-64.

Moser, I. 1962. Phasenverschiebungen der endogenen Tagesrhythmik bei Phaseolus durch Temperatur und Lichtintensitatsanderungen. Planta 58: 199-219.

Mrosovsky, N. 1988. Phase response curves for social entrainment. J. Comp. Physiol. A 162: 35-46.

Mrosovsky, N. and M.R. Ralph. 1992. Phase response curve to anisomycin in tau mutant hamsters. Experientia 48: 875-877.

Mrosovsky, N., P.A. Salmon, M. Menaker and M.R. Ralph. 1992. Nonphotic phase shifting in hamster clock mutants. J. Biol. Rhythms 7: 41-49.

Nagy, F., E. Fejes, B. Wehmeyer, G. Dallman and E. Schafer. 1993. The circadian oscillator is regulated by a very low fluence response of phytochrome in wheat. Proc. Natl. Acad. Sci. 90: 6290-6294.

Nakashima, H. 1981. A liquid culture method for the biochemical analysis of the circadian clock of Neurospora crassa. Plant & Cell Physiol. 22: 231-238.

Nakashima, H. 1984. Calcium inhibits phase shifting of the circadian conidiation rhythm of Neurospora crassa  by the calcium ionophore A23187. Plant Physiol. 74: 268~271:

Nakashima, H. and J.E. Feldman. 1980. Temperature-sensitivity of light-induced phase shifting of the circadian clock of Neurospora. Photochem. Photobiol. 32: 247-251.

Nakashima, H., J. Perlman and J.E. Feldman. 1981. Genetic evidence that protein synthesis is required for the circadian clock of Neurospora. Science 212: 361-362.

Nakashima, H., J. Perlman and J.E. Feldman. 1981. Cycloheximide- induced phase shifting of circadian clock of Neurospora. Am. J. Physiol. 241: R31-R35.

Nakashima, H. 1982. Phase shifting of the circadian clock by diethylstilbestrol and related compounds in Neurospora crassa. Plant Physiol. 70: 982-986.

Nakashima, H. 1984. Effects of respiratory inhibitors on respiration, ATP contents, and the circadian conidiation rhythm of Neurospora crassa. Plant Physiol. 76: 612-614.

Nakashima, H. 1986. Phase shifting of the circadian conidiation rhythm in Neurospora crassa by calmodulin antagonists. J. Biol. Rhythms 1:163-169.

Nakashima, H. 1987. Comparison of phase shifting by temperature of wild type Neurospora crassa and the clock mutant, frq-7. J. Interdiscipl. Cycle Res. 18: 1-8.

Natalini, J.J. 1972. Relationship of the phase-response curve for light to the free-running period of the Kangaroo rat Diposomys merriaini. Physiol. Zool. 45: 153-166.

Neumann, D. Phase-response-curves of the circadian emergence time in different geographic races of Clunio marinus (in preparation).

Neumann, D. and F. Heimbach. 1985. Circadian range of entrainment in thesemilunar eclosion rhythm of the marine insect Clunio marinus. J. Insect Physiol. 31: 549-557.

Njus, D., L. McMurry and J.W. Hastings. 1977. Conditionality of circadian rhythmicity: synergistic action of light and temperature. J. Comp. Physiol. 117: 335-344.
 
Okada, Y., K. Tomioka and Y. Chiba. 1991. Circadian phase-response curves for light in nymphal and adult crickets, Gryllus bimaculatus. J. Insect Physiol. 37: 583-590.

Page, T.L. and R.K. Barrett. 1989. Effects of light on circadian pacemaker development. II. Responses to light. J. Comp. Physiol. A 165: 51-59.

Page, T.L. 1991. Developmental manipulation of the circadian pacemaker in the cockroach: relationship between pacemaker period and response to light. Physiol. Entomol. In prees.

Perlman, J., H. Nakashima and J.F. Feldman. 1981. Assay and characteristics of circadian rhythmicity in liquid cultures of Neurospora crassa. Plant Physiol. 67: 404-407.

Peterson, E.L. 1980. A limit cycle interpretation of a mosquito circadian oscillator. J. Theor. Biol. 84: 281-310.

Pickard, G.E. M.R. Ralph and M. Menaker. 1987. The intergeniculate leaflet partially mediates effects of light on circadian rhythms. J. Biol. Rhythms 2: 35-56.

Pittendrigh, C.S. 1960. Circadian rhythms and the circadian organization of living systems. In: A Chauvnick (ed.) Biological Clocks. CSH Symp. Quant. Biol. 25:-159-184.

Pittendrigh, C.S. 1960. Circadian rhythms and the circadian organization of living systems. Cold Spring Harbor Symposia on Quantitative Biology 25: 159-184 (PRCs for various durations of light pulses to Drosophila pseudoobscura) .

Pittendrigh, C. 1967. Circadian systems. I. The driving oscillation and its assay in Drosophila pseudoobscura. PNAS 58: 1762-1767.

Pittendrigh, C. and D. Minis. 1964. The entrainment of circadian oscillations by light and their role as photoperiodic clocks. Amer. Nat. 98: 261-294.

Pittendrigh, C. S. and D.H. Minis. 1971. The photoperiodic time measurement in Pectinophora gossupiella and its relations to the circadian system in that species. In: Menaker (ed.) Biochronometry. Nat. Acad. Sci., Washington, D.C., pp. 212- 250.

Pittendrigh, C. S. and T. Takamura. 1989. Latitudinal clines in the properties of a circadian pacemaker. J. Biol. Rhythms 4: 217-235.

Pohl, H. 1983. Light pulses entrain the circadian activity rhythm of a diurnal rodent (Ammospermophilus leucurus). Comp. Biochem. Physiol. 76B: 723-729.

Pohl, H. 1984. Differences in responses of the circadian system to light in the Syrian hamster. Physiol. Zool. 57: 509-520.

Pohl, H. 1985. The circadian system of the Turkish hamster, Mesocricetus brandt: responses to light. Comp. Biochem. Pysiol. 81A: 613-618.

Pohl, H. 1992. Ultraviolet radiation: a zeitgeber for the circadian clock in birds. Naturwissenschaften 79: 227-229.

Prosser, R.A., A.J. McArthur and M.U. Gillette. 1989. cGMP induces phase shifts of a mammalian circadian pacemaker at night, in antiphase to cAMP effects. Proc. Natl. Acad. Sci. 86: 6812-6815.

Prosser, R.A. and M.U. Gillette. 1989. The mammalian circadian clock in the suprachiasmatic nuclei is reset in vitro by cAMP. J. Neuroscience 9: 1073-1081.

Puchalski, W. and G.R. Lynch. 1991. Circadian characteristics of Djungarian hamsters: effects of photoperiodic pretreatment and artificial selection. Am. J. Physiol. 261: R670-R676.

Puchalski, W. and G.R. Lynch. 1992. Relationship between phase resetting and the free-running period in Djungarian hamsters. J. Biol. Rhythms 7: 75- 83.

Ralph, M.R., S.B.S. Khalsa and G.D. Block. 1992. Cyclic nucleotides and circadian rhythm generation in Bulla gouldiana. Comp. Biochem. Physiol. 101A: 813-817

Raju, U., C. Koumenis, M. Nunez-Regueiro and A. Eskin. 1991. Alteration of the phase and period of a circadian oscillator by a reversible transcription inhibitor. Science 253: 673-675.

Reebs, S.G. 1989. Acoustical entrainment of circadian activity rhythm. in house sparrows: constant light ia not necessary. Ethology 80: 172-181.

Reebs, S.G. and N. Mrosovsky. 1989. Effects of induced wheel running on the circadian activity rhythms of Syrian hamster: entrainment and phase response curve. J. Biol. Rhythms 4: 39-48.

Robertson, L.M. and J.S. Takahashi. 1988. Circadian clock in cell culture: II. In vitro photic entrainment of melatonin oscillation from dissociated chick pineal cells. J. Neuroscience 8: 22-30.

Roberts, S.K. 1962. Circadian activity rhythms in cockroaches II. Entrainment and phase shifting. J. Cell Comp. Physiol. 59: 175- 186.

Rosenberg, R.S., P.C. Zee and F.W. Turek. 1991. Phase response curves to light in young and old hamsters. Am. J. Physiol. 261: R491-R495.

Rothman, B.S. and F. Strumwasser. 1976. Phase shifting the circadian rhythm of neuronal activity in the isolate Aplysia eye with puromycin and cycloheximide: electrophysiological and biochemical studies. J. Gen. Physiol. 68: 359-384.

Ruddat, M. 1961. Versuche zur Beeinflussung und Auslosung der endogenen Tagesrhythmik bei Oedogonium cariacum Wittr. Z. BOt. 49: 23-46.

Rusak, B. and G. Groos. 1982. Suprachiasmatic stimulation phase shifts rodent circadian rhythms. Science 215: 1407-1409.

Rusak, B., J.H. Meijer and M.E. Harrington. 1989. Hamster circadian rhythms are phase-shifted by electrical stimulation of the geniculo-hypothalamic tract. Brain Res. 493: 283-291.

Sargent, M.L. and W.R. Briggs. 1967. The effects of light on a circadian rhythm of conidiation in Neurospora. Plant Physiol. 42: 1504-1510.

Satter, R.L., S.E. Guggino, R.A. Lonergan and A.W. Galston. 1981. The effects of blue and far red light on rhythmic leaflet movements in Samanea and Albizzia. Plant Physiol. 67: 965- 968.

Saunders, D. and E. Thompson. 1977. A 'strong' phase response curve for the circadian rhythm of locomotor in the cockroach, Nauphoeta cinerea. Nature 270: 241-243.

Saunders, D. 1978. An experimental and theoretical analysis of photoperiod induction in the flesh fly, Sarcophaga argyrostoma. J. Comp. Physiol. 124: 75-95.

Schnabel, G. 1968. Der Einfluss von Licht auf die circadiane Rhythmik von Euglena gracilis bei Autotrophie und Mixotrophic. (The influence of light upon the circadian rhythm in Euglena gracilis in Mixotrophic and Autotrophic Cultures.) Planta (Berl.) 81: 49-63.

Simon, E., R.L. Satter and A.W. Galaton. 1976. Circadian rhythmicity in excised Samanea pulvini. Plant Physiol. 58: 421-425.

Skopik, S.D. and M. Takeda. 1980. Circadian control of oviposition activity in Ostrinia nubilalis. Am. J. Physiol. 8: R259-R264 (one hour light pulse PRC to Ostrinia).

Skrove, E., T. Rinnan and A. Johnsson. 1982. Effect of abscisic acid on the circadian leaf movements of Oxalis regnelli. Physiol. Plant 55:221-225.

Smith, R.D., S.T. Inouye and F.W. Turek. 1989. Central administration of muscimol phase-shifts the mammalian circadian clock. J. Comp. Physiol. A 164: 805-814.

Stephens, G.C. 1957. Influence of temperature fluctuations on the diurnal melanophore rhythm of the fiddler crab Uca. Physiol. Zool. 30:55-69.

Stetson, M. and Gibson. 1977. The estrous cycle in golden hamsters: a circadian pacemaker times preovulatory gonadotropin release. J. Exp. Zool. 201:289-294.

Subbaraj et al. 1978. Pulses of darkness shift the phase of a circadian rhythm in an insectivorous bat. J. Comp. Physiol. 127:239-243.

Subbaraj, R. and M.K. Chandrashekaran. 1981. Mirror imaging phase response curves obtained for the circadian rhythm of a bat with single steps of light and darkness. J. Interdiscipl. Cycle Res. 12:305-312.

Summer, T.L. and C. E. McCormack. 1982. Phase-response-curve(PRC) of circadian locomotor activity in the rat. Fed. Proc. 41:1698.

Summer, T.L. and C.E. McCormack. 1984. Phase-response and Aschoff illumination curves for the locomotor activity rhythm of the rat. Am. J Physiol. 246:R299-R304.

Sundararajan, K.S., R. Subbaraj, M.K. Chandrashekaran and S.Shunmugasundaram. 1978. Influence of fusaric acid on circadian leaf movements of the cotton plant, Gossypium hirsutum. Planta 144:111-112.

Sweeney, B.M. 1963. Resetting the biological clock in Gonyaulax with UV light. Plant Physiol. 38:704-708.

Sweeney, B.M. 1969. Rhythmic Phenomena in Plants. Academic Press, New York., P. 43.

Sweeney, B.M. 1971. Circadian rhythms in unicellular organisms. Proc. Int. Symp. Circadian Rhythmicity (Wageningen), pp. 137-156.

Sweeney, B.M. 1974. The potassium content of Gonyaulax polyedra and phase changes in the circadian rhythm of stimulated bioluminescence by short exposures to ethanol and valinomycin. Plant Physiol. 53: 337-342.

Sweeney, B.M. and J.M. Herz. 1977. Evidence that membranes play an important role in circadian rhythms. In: Proceedings of the Twelfth International Conference of the International Society for Chronobiology, (pub. Il Ponte, Milan, Italy), pp. 751-761.

Takahashi, J.S., P.J. DeCoursey, L. Bauman and M. Menaker. 1984. Spectral sensitivity of a novel photoreceptive system mediating entrainment of mammalian circadian rhythms. Nature 308: 186-188.

Takahashi; J. and F.W. Turek. 1987. Anisomycin, an inhibitor of protein synthesis, perturbs the phase of a mammalian circadian pacemaker. Brain Res. 405: 199-203.

Tamponnet, C. and L.N. Edmunds, Jr. 1990. Entrainment and phase-shifting of the circadian rhythm of cell division bv calcium in synchronous cultures achlorophyllous mutant of Euglena gracilis. Plant Physiol. 93: 425-431 (PRCs to high and low extracellular calcium).

Taylor, W.R. 1979. Studies on the bioluminescent glow rhythm of Gonyaulax polyedra. Ph.D. thesis, University of Michigan.

Taylor, W.R. and J.W. Hastings. 1979. Aldehydes phase shift the Gonyaulax clock. J. Comp. Physiol. 130: 359-362.

Taylor, W.R., V.D. Gooch and J.W. Hastings. 1979. Period shortening and phase shifting effects of ethanol on the Gonyaulax glow rhythm. J. Comp. Physiol. 130: 355-358.

Taylor, W. and J.W. Hastings. 1982. Minute-long pulses of anisomycin phaseshift the biological clock in Gonyaulax by hours. Naturwiss. 69: S.94.

Taylor, W.R., J.C. Dunlap and Hastings. 1982. Inhibitors of protein synthesis on 80s ribosomes phase shift the Gonyaulax clock. J. Exp. Biol. 97:121-136.

Taylor, W., R.Krasnow, J.C. Dunlap, J. Broda and J.W. Hastings. 1982. Critical pulses of anisomycin drive the circadian oscillator in Gonyaulax towards its singularity. J. Comp. Physiol. 148:11-25.

Techel, D., G. Gebauer, W. Kohler, T. Braumann, B. Jastorff and L. Rensing. 1990. On the role of Ca++-calmodulin-dependent and cAMP-dependent protein phosphorylation in the circadian rhythm of Neurospora crassa. J. Comp. Physiol. B 159: 695-706 (PRCs to various drugs affecting calcium, calmodulin, and cAMP).

Truman, J.W. 1972. Involvement of a photoreversible process in the circadian clock controlling silkmoth eclosion. Z. Vergl. Physiologie. 76:32-40.

Turek, F.W. and S. Losee-Olson. 1986. A benzodiazepine used in the treatment of insomnia phase-shifts the mammalian circadian clock. Nature 321: 167-168 (PRC to triazolam).

Underwood, H. 1983. Circadian pacemakers in lizards: phase-response curves and effects of pinealectomy. Am. J. Physiol. 244:R857-R864.

Underwood, H. 1985. Extraretinal photoreception in the lizard Sceloporus occidentalis: phase response curve. Am. J. Physiol. 242: R407-R414.

Underwood, H. 1986. Circadian rhythms in lizards: phase response curve for melatonin. J. Pineal Res. 3: 187-196.

Viswanathan, N. and R. Subbaraj. 1983. Action of gibberellic acid in effecting phase shifts of the circadian leaf-movement rhythm of a cotton plant, Gossypium hirsutum. Can. J. Bot. 61: 2527-2529.

Wagner, R. 1963. Der einfluss niedriger temperatur auf die phasenlage der endogen-tagesperiodischen blattbewegungen von Phaseolus multiforus. Zeitschrift fur Botanik 51:179-204.

Walz, B and B.M. Sweeney. 1979. Kinetics of the cycloheximide-induced phase changes in the biological clock in Gonyaulax. P.N.A.S. 76:6443-6447.

Webb, H. et al. 1953. Relationship between time of day and inhibiting influence of low temperature on the diurnal chromatophore rhythm of Uca. Biol. Bull. 105:386-387.

Wee, B.E.F. and F.W. Turek. 1989. Carbachol phase shifts the circadian rhythm of locomotor activity in the Djungarian hamster. Brain Res. 505:209-214.

Wee, B.E.F. and F.W. Turek. 1989. Midazolam, a short-acting benzodiazepine, resets the circadian clock of the hamster. Pharm. Biochem. Behavior 32:901-906.

West, D.J. 1976. Phase shift of circadian rhythm of conidiation in response to ultraviolet light. Neurospora Newsletter 23:17-18.

Wickland, C. and F.W. Turek. 1991. Phase-shifting effects of acute increases in activity on circadian locomotor rhythms in hamsters. Am. J. Physiol. 261: R1109-R1117.

Wiedenmann, G. 1977. Two activity peaks in circadian rhythm of cockroach Leucophaca maderae. J. Interdiscipl.  Cycle Res. 8:378-383.

Wiedenmann, G. 1977. Weak and strong phase shifting in the activity rhythm of Leucophaca maderae (Blaberidae) after light pulses of high intensity. Z. Naturforsch 32c:464-465.

Wiedenmann, G. 1978. Ph.D. thesis, Universitat Tubingen.

Wiedenmann, G. 1980. Two peaks in the activity rhythm of cockroaches controlled by one circadian pacemaker. J. Comp. Physiol. 137:249-254.

Wilkins, M.B. 1983. The circadian rhythm of carbon-dioxide metabolism in Bryophyllum:the mechanism of phase-shift induction by thermal stimuli. Planta 157:471-480.

Wollnik, F., F.W. Turek, P. Majewski and J.S. Takahashi. 1989. Phase shifting the circadian clock with cycloheximide: response of hamsters with an intact or a split rhythm of locomotor activity. Brain Res. 496: 82-88.

Zatz, M. D.A. Mullen and J.R. Moskal. 1988. Photoendocrine transduction in cultured chick pinea1 cells: effects of light, dark, and potassium on the melatonin rhythm. Brain Res. 438: 19g-215.

Zatz, M. and D.A. Mullen. 1989. Ouabain (or salt solution lacking potassium) mimics the effects of dark pulses on the circadian pacemaker in cultured chick pineal cells. Brain Res. 501: 37-45.

Zatz, M. and H.-M. Wang. 1991. Low salt mimics effects of dark pulses on circadian pacemaker in cultured chick pineal cells. Am. J. Physiol. 261: R1424-R1430.

Zatz, M. and H.-M. Wang. 1991. High salt mimics effects of light pulses on circadian pacemaker in cultured chick pineal cells. Am. J. Physiol. 260: R769-R776.

Zimmer, R. 1962. Phassenverschiebung und andere Storlichtwirkunger auf die Endogen Tagespieriodischen blutenblattbewegungen bon Kalanchoe blossfeldiana. Planta 58:283-300.

Zimmerman, W.F., C.S. Pitterdrigh, T. Pavlidis. 1968. Temperature compensation of the circadian oscillation in Drosophila pseudoobscura and its entrainment by temperature cycles. J. Insect. Physiol. 14:669-684.