242 CONTROL MECHANISMS IN CELLULAR PROCESSES 



BuHNEMANN, F. 1955b. Das endodiurnale System der Oedogoniumzelle. III. Uber 

 den Teniperatiireinfluss. Z. Natwforsch. lOh: 305-310. 



BuNNiNG, E. 1931. Untersnchungen iiber die autonomen tagesperiodischen Bewe- 

 gungen der Primarblatter von Phaseohis muJtifloiis. ]ahih. wiss. Botan. 75: 439- 

 480. 



BuNNiNG, E. 1958a. Die plu/siologische Uhr. Springer-Veriag, Berlin. 



BuNNiNG, E. 1958b. Ober den Temperatureinfluss auf die endogene Tagesperiodik, 

 besonders bei Periplaneta americana. Biol. Zhl. 77: 141-152. 



BiJNNiNG, E. 1959. Endogenous diurnal rhytlimicity. In Photoperiodism and Related 

 Phenomena in Plants and Animals, ed. R. B. Withrow. American Association for 

 the Advancement of Science Publication No. 55. Washington, D.C. 



DucoFF, H. S., and C. Ehret (Eds.). 1959. Symposium on Mitogenesis. University 

 of Chicago Press, Chicago. 



Ehret, C. F. 1959. Photobiology and biochemistry of circadian rhythms in non- 

 photosynthesizing cells. Federation Proc. 18: 1232-1240. 



Grossenbacher, K. a. 1939. Autonomic cycle of rate of exudation of plants. Am. 

 J. Botanij 26: 107-109. 



Hase, E., S. Mihara, and H. Tamiya. 1960. Role of sulfur in the cell division of 

 Cldorella, with special reference to the sulfur compounds appearing during the 

 process of cell division. Plant and Cell Pht/siol. 1: 131-142. 



Hastings, J. W. 1959. Unicellular clocks. Aim. Rev. Microbiol. 13: 297-312. 



Hastings, J. W., and L. Astrachan. 1959. A diurnal rhythm of photosyntliesis. 

 Federation Proc. 18: 65. 



Hastings, j. W., and B. M. Sweeney. 1957a. The luminescent reaction in extracts 

 of the marine dinoflagellate Gomjaula.x poh/edra. ]. Cellular Comp. Physiol. 49: 

 209-226. 



Hastings, J. W., and B. M. Sweeney. 1957b. On the mechanism of temperature 

 independence in a biological clock. Proc. Nat. Acad. Sci. U.S. 43: 804-811. 



Hastings, J. W., and B. M. Sweeney. 1958. A persistent diurnal rhythm of lumines- 

 cence in Gonyatdax poh/edra. Biol. Bull. 115: 440-458. 



Hastings, J. W., and B. M. Sweeney. 1959. The Gonyaulax clock. In Photo- 

 periodism and Related Phenomena in Plants and Animals, ed. R. B. Withrow. 

 American Association for the Advancement of Science Publication No. 55. Wash- 

 ington, D.C. 



Hastings, J. W., and B. M. Sweeney. 1960. The action spectrum for shifting tlie 

 phase of the rhythm of luminescence in Gonyaulax polyedra. J. Gen. Physiol. 43: 

 697-706. 



Hoffman, K. 1957. Ober den Einfluss der Temperatur auf die Tagesperiodik bei 

 einem Poikilothermen. Naturwiss. 44: 358. 



IjEINWeber, F. J. 1956. Uber die Temperaturabhiingigkeit der Periodenliinge bei 

 der endogenen Tagesrhythmik von PJiaseolus. Z. Botan. 44: 337-364. 



McElroy, W. D., and Bentley Glass (Eds.). 1958. The Chemical Basis of De- 

 velopment. Johns Hopkins Press, Baltimore. 



PiTTENDRiGH, C. S. 1954. On temperature independence in the clock-system con- 

 trolling emergence time in Drosophila. Proc. Nat. Acad. Sci. U.S. 40: 1018-1029. 



PiTTENDRiGH, C. S. 1958. Perspecti\ cs in the study of biological clocks. In Perspec- 

 tives in Marine Biology, ed. A. A. Buzzati-Tra\ erso. University of California 

 Press, Berkeley and Los Angeles. 



PiTTENDRiGH, C. S., and V. G. Bruce. 1957. An oscillator model for biological 

 clocks. In Rhythmic and Synthetic Processes in Growth, XV Growth Symposium, 

 Princeton Uni\ersity Press, Princeton. 



PiTTENDRiGH, C. S., and V. G. Bruce. 1959. Daily rhythms as coupled oscillator 

 systems and their relation to thermoperiodism and photoperiodism. In Photo- 

 periodism and Related Phenomena in Plants and Animals, ed. R. B. Withrow. 

 American Association for the Advancement of Science Publication No. 55. Wash- 

 ington, D.C. 



