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Biological Rhythm Research Volume 37, 2006 - Issue 4: Plant Chronobiology
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Ultradian rhythms and clocks in plants and yeast

David Lloyd Microbiology Group, Cardiff School of Biosciences, Cardiff University, Wales, UKCorrespondence[email protected]
Pages 281-296 | Published online: 03 Feb 2007

References

  • Adams , C A , Kuriyama , H , Lloyd , D and Murray , D B . 2003 . The GTS1 protein stabilizes the autonomous oscillator in yeast . Yeast , 20 : 463 – 470 .
  • Adams , K T . 1989 . “ Circadian clock control of an ultradian rhythm in Euglena gracilis ” . In Chronobiology and chronomedicine: basic research and applications , Edited by: Morgan , E . 13 – 33 . Frankfurt : Peter Lang .
  • Adolfson , K A , Sothern , K B and Koukkari , W Z . 1998 . Ultradian movements of two species of soybeans Glycine soja and G. max . Merr. Chronobiol Int , 1 : 1 – 22 .
  • Aon , M and Cortassa , S . 1997 . Dynamic biological organisation: Fundamentals as applied to cellular systems , London : Chapman & Hall .
  • Antkowiack , B and Englemann , W . 1995 . Oscillations of apoplasmic K+ and H+ activities in Desmodium motorium (Houtt. Merril. Pulvini) in relation to the membrane potential of motor cells and leaflet movements . Planta , 196 : 350 – 356 .
  • Antkowiack , B , Englemann , W , Herbjø´rnsen , R and Johnsson , A . 1992 . Effects of vanadate N2 and light on the membrane potential of motor cells and the lateral leaflet movements of Desmodium motorium . Physiol Plant , 86 : 551 – 558 .
  • Antkowiack , B , Meyer , W E and Engelmann , W . 1991 . Oscillations of the membrane potential of pulvininar motor cells in situ in relation to leaflet movements of Desmodium motorium . J Exp Bot , 2 : 901 – 910 .
  • Aserinsky , E and Kleitman , N . 1953 . Regularly occurring periods of eye motility, and concomitant phenomena during sleep . Science , 118 : 273 – 274 .
  • Auberson , L CM , Kanbier , T and vonStockar , U . 1993 . Monitoring yeast cultures by calorimetry . J Biotech , 29 : 205 – 215 .
  • Balzer , I , Neuhaus-Steinmetz , V and Hardeland , R . 1989 . Temperature compensation in an ultradian rhythm of tryosine aminotransferase activity in Euglena gracilis Klebs . Experientia , 45 : 476 – 477 .
  • Barrio , R S , Zhang , L and Maini , P K . 1997 . Hierarchically coupled ultradian oscillations generating robust circadian rhythms . Bull Math Biol , 59 : 517 – 532 .
  • Bernard , C . 1856 . Introduction à l'étude de la medicine experimentale , Paris : Garnier-Hammarion .
  • Beuse , M , Kopmann , K , Diekmann , H and Thoma , M . 1999 . Oxygen, pH value and carbon source changes of the mode of oscillation in synchronous cultures of yeast (Saccharomyces cerevisiae) . Biotech Bioeng , 63 : 410 – 417 .
  • Bose , J C . 1913 . Researches on irritability in plants , New York : Longmans, Green & Co. .
  • Brandenberger , G . 2003 . The ultradian rhythm of sleep: diverse relations with pituitary and adrenal hormones . Rev Neurol (Paris) , 159 ( Suppl GS ) : 5 – 10 .
  • Brodsky , V Y . 1975 . Protein synthesis rhythm . J Theor Biol , 55 : 167 – 200 .
  • Brodsky , V Y , Nechaeva , N V , Zvezdina , N D , Novikova , T E , Gvasava , I G , Fateeva , V I and Malchenko , L A . 2004 . Small cooperative activity of old rat hepatocytes may depend on the composition of the intercellular medium . Cell Biol Int , 28 : 311 – 316 .
  • Bünning , E . 1967 . Known and unknown principles of biological chronometry . Ann NY Acad Sci , 138 : 515 – 524 .
  • Bünning , E . 1971 . The adaptive value of leaf movements. Biochronometry , Washington, DC : National Academy of Science .
  • Bünning , E . 1973 . The Physiological Clock. , 3rd ed , Berlin, Heidelberg, New York : Springer-Verlag .
  • Bünning , E . 1975 . Pfeffer's views on rhythms . Chronobiol , 2 : 160 – 167 .
  • Bünning , E . 1977 . Fifty years of research in the wake of William Pfeffer . Ann Rev Plant Physiol , 28 : 1 – 22 .
  • Cannon , W . 1932 . The wisdom of the body , New York : Norton .
  • Chance , B and Williams , R G . 1956 . The respiratory chain and oxidative phosphorylation . Adv Enzymol , 17 : 65 – 134 .
  • Chance , B , Estabrook , R W and Ghosh , A . 1964 . Damped sinusoidal oscillations of cytoplasmic reduced pyridine nucleotide in yeast cells . Proc Natl Acad Sci USA , 51 : 1244 – 1251 .
  • Chance , B , Pye , E K , Ghosh , A K and Hess , B . 1973 . Biological and biochemical oscillators , New York : Academic Press .
  • Chen , C I and McDonald , K A . 1990 . Oscillatory behaviour of yeast (Saccharomyces cerevisiae) in continuous culture. Analysis of cell synchronization and mechanism . Biotech Bioeng , 36 : 28 – 38 .
  • Chen , J P , Eichelmann , C and Engelmann , W . 1997 . Substances interfering with phosphatidyl inositol signalling pathway affect ultradian rhythm of Desmodium motorium . J Biosci , 22 : 465 – 476 .
  • Darwin , C and Darwin , F . 1880 . The power of movement in plants. , 2nd ed , London : John Murray .
  • De Mairan , J . 1729 . On diurnal leaf movements . Acad Roy Soc Paris , : 35
  • Duboc , P , Marison , I and vonStockar , U . 1996 . Physiology of yeast (Saccaromyces cerevisiae) during cell cycle oscillations . J Biotech , 51 : 57 – 72 .
  • Ellingsrud , S and Johnsson , A . 1993 . Perturbations of plant leaflets caused by long electromagnetic radio frequency radiation . Bioelectromagnetics , 14 : 257 – 271 .
  • Engelmann , W . 1996 . “ Leaf movement rhythms as hands of biological clocks ” . In Vistas on biorhythmicity , Edited by: Greppin , H , Degli Agosti , R and Bonzon , M . 51 – 76 . Geneva : University of Geneva .
  • Engelmann , W and Antkowiak , B . 1998 . Ultradian rhythms in Desmodium . Chronobiol Int , 15 : 293 – 307 .
  • Fuentes-Pardo , B and Sáenz , E M . 1988 . Action of deuterium oxide upon the ERG circadian rhythm in crayfish, Procambarus bouviei . Comp Biochem Physiol , 90A : 435 – 440 .
  • Fukuda , H , Kodama , J I and Kai , S . 2004 . Circadian rhythm formation in plant seedling: global synchronization and bifurcation as a coupled nonlinear oscillator system . BioSystems , 77 : 41 – 46 .
  • Garfinkel , D , Frenkel , R and Garfinkel , L . 1968 . Simulation of the detailed relation of glycolysis in a heart supernatant preparation . Comp Biomed Res , 2 : 68 – 91 .
  • Gilbert , D . 1974 . The nature of the cell cycle and the control of cell proliferation . BioSystems , 5 : 197 – 206 .
  • Gilbert , D and Lloyd , D . 2000 . The living cell: a complex autodynamic multi-oscillator system . Cell Biol Int , 24 : 569 – 580 .
  • Goodwin , B C . 1963 . Temporal organization of cells , London : Academic Press .
  • Guillaume , F M and Koukkari , W L . 1987 . Two types of high frequency oscillations in Glycine max (L) . Med Prog Clin Biol Res , 227A : 47 – 57 .
  • Hackenbrock , C R . 1968 . Ultrastructural bases for metabolically-linked mechanical activities in mitochondria. II Electron transport-linked ultrastructure transformations in mitochondria . J Cell Biol , 37 : 345 – 369 .
  • Hammond , K D , Savage , N and Littlewood . 2000 . Rhythmic patterns in the expression of the ras oncogene in proliferating and differentiating erythroleukaemia cells . Cell Biol Int , 24 : 529 – 538 .
  • Higgins , J . 1967 . The theory of oscillatory reactions . Indust Engin Chem , 59 : 18 – 62 .
  • Hildebrant , G . 1982 . “ The time structure of adaptive processes ” . In Biological adaptation , Edited by: Hildebrant , G and Hensel , H . 24 – 39 . Stuttgart, New York : Thieme-Verlag .
  • Holmgren , A . 2003 . “ The role of thioredoxin and glutaredoxin systems in disulfide reduction and thiol redox control ” . In Cellular Implications of Redox Signalling , Edited by: Gitler , C and Dannon , A . 1 – 26 . London : Imperial College Press .
  • Jenkins , H , Griffiths , A J and Lloyd , D . 1989 . Simultaneous operation of ultradian and circadian rhythms in Chlamydomonas reinhardii . J Interdisc Cycle Res , 20 : 257 – 264 .
  • Jenkins , H , Griffiths , A J and Lloyd , D . 1990 . Selection – synchronized Chlamydomonas reinhardii display ultradian but not circadian rhythms . J Interdisc Cycle Res , 21 : 75 – 80 .
  • Johnsson , A and Skrove , D . 1988 . Ultradian leaf movement in oxalis regnellii . Plant Physiol (Life Sci Adv) , 7 : 1 – 5 .
  • Johnsson , A , Engelmann , W and Antkowiack , B . 1990 . “ Leaf movements in nyctinastic plants as hands of the biological clock ” . In The Pulvinus: Motor Organ for Leaf Movements , Edited by: Satter , R L , Gorton , H L and Vogelmann , C T . Rockville, MD : American Society for Plant Physiology .
  • Jouvet , M . 1994 . Phylogeny of sleep stages . Acta Psychiatr Belg , 94 : 256 – 267 .
  • Keenan , D M , Alexander , S , Irvine , C H , Clarke , I , Scott , C , Turner , A , Tilbrook , A J , Canny , B J and Veldhuis , J D . 2004 . Reconstruction of in vivo time evolving neuroendocrine dose-response properties unveils admixed deterministic and stochastic elements . Proc Natl Acad Sci USA , 101 : 6740 – 6745 .
  • Kippert , F and Lloyd , D . 1995 . A temperature-compensated clock ticks in Schizosaccaromyces pombe . Microbiol , 141 : 883 – 890 .
  • Klevecz , R R . 1992 . “ A precise circadian clock from chaotic cell cycle oscillations ” . In Ultradian Rhythms in Life Processes , Edited by: Lloyd , D and Rossi , E R . 41 – 70 . London : Springer-Verlag .
  • Klevecz , R R , Bolen , J , Forrest , G and Murray , D G . 2004 . A genomewide oscillation in transcription gates DNA replication and cell cycle . Proc Natl Acad Sci USA , 101 : 1200 – 1205 .
  • Koukkari , W L . 1994 . Movement of a bean shoot: an introduction to chronobiology . Chronobiol Int , 2 : 85 – 93 .
  • Koukkari , W L , Bingham , C and Duke , S H . 1987 . A special group of ultradian oscillations . Prog Clin Biol Res , 227A : 47 – 57 .
  • Küenzi , M T and Fiechter , M . 1969 . Changes in carbohydrate composition and trehalase activity during the budding cycle of yeast . Arch Microbiol , 64 : 396 – 407 .
  • Lanoue , A , Shakourzadeht , Marison , I , Laberche , J C , Christen , P , Sangwan-Norreel , B and Boitel-Conti , M . 2004 . Occurrence of circadian rhythms in hairy root cultures grown under controlled conditions . Biotech Bioeng , 88 : 722 – 729 .
  • Lavie , L and Lavie , P . 2004 . Daily rhythms in plasma levels of homocysteine . J Circadian Rhythms , 2 : 5
  • Lewis , R D and Silyn-Roberts , H . 1987 . Entrainment of the ultradian leaf movement rhythm of Desmodium gyrans by temperature cycles . J Interdiscipl Cycle Res , 18 : 193 – 203 .
  • Lillo , C and Meyer , C . 2001 . Biological clocks and the nitrate reductase oscillating system . Biol Rhythm Res , 32 : 489 – 500 .
  • Lillo , C , Meyer , C and Ruoff , P . 2001 . The nitrate reductase system. The central clock dogma contra multiple oscillatory feedback loops . Plant Physiol , 125 : 1554 – 1557 .
  • Lloyd , A L and Lloyd , D . 1993 . Hypothesis: the central oscillator of the circadian clock is a controlled chaotic oscillator . Biosystems , 29 : 77 – 85 .
  • Lloyd , A L and Lloyd , D . 1995 . Chaos: its significance and detection in biology . Biol Rhythm Res , 26 : 233 – 252 .
  • Lloyd , D . 1992 . “ Intracellular time keeping: epigenetic oscillator reveal the functions of an ultradian clock ” . In Ultradian Rhythms in Life Processes , Edited by: Lloyd , D and Rossi , E R . 5 – 22 . London : Springer-Verlag .
  • Lloyd , D . 1997 . Circadian and ultradian clock-controlled rhythms in unicellular microorganisms . Adv Mic Physiol , 39 : 291 – 338 .
  • Lloyd , D . 2003 . Effects of uncoupling of mitochondrial energy conservation on the ultradian clock-driven oscillations in Saccharomyces cerevisiae continuous culture . Mitochondrion , 3 : 139 – 146 .
  • Lloyd , D , Aon , M and Cortassa , S A . 2001 . Why homeodynamics not homeostasis . The Scientific World , 1 : 133 – 145 .
  • Lloyd , D and Edwards , S W . 1984 . “ Epigenetic oscillations during the cell cycles of lower eukaryotes are coupled to a clock. Life's slow dance to the music of time ” . In Cell Cycle Clocks , Edited by: Edmunds , L N Jr . 27 – 46 . New York : Marcel Dekker .
  • Lloyd , D and Gilbert , D A . 1998 . Temporal organization of the cell division cycle in eukaryotic microbes . Symp Soc Gen Microbiol , 56 : 251 – 278 .
  • Lloyd , D and Kippert , F . 1987 . A temperature-compensated ultradian clock explains temperature-dependent quantal cell cycle times . Symp Soc Exp Biol , 40 : 135 – 155 .
  • Lloyd , D and Kippert , F . 1993 . Intracellular coordination by the ultradian clock . Cell Biol Int , 17 : 1047 – 1052 .
  • Lloyd , D , Lemar , K M , Murray , D , Aon , M , Cortassa , S A and O'Rourke , B . 2003 . Yeast ultradian clock monitored in continuous cultures and respiratory oscillations evaluated by 2-photon laser microscopy , Tlaxcala, , Mexico : VII Latin American Symposium on Chronobiology .
  • Lloyd , D and Murray , D B . 2000 . “ Redox cycling of intracellular thiols: state variables for ultradian, cell division cycle and circadian cycles? ” . In The Redox State and Circadian Rhythms , Edited by: Vanden Driessche , T , Guisset , J L and Petiau-de Vries , G M . 85 – 94 . Dordrecht : Kluwer Academic .
  • Lloyd , D and Murray , D B . 2005 . Ultradian metronome: timekeeper for orchestration of cellular coherence . Trends Biochem Sci , 30 : 373 – 377 .
  • Lloyd , D , Poole , R K and Edwards , S W . 1982 . The cell division cycle: Temporal organization of cellular growth and reproduction , London : Academic Press .
  • Lloyd , D and Rossi , E R . 1992 . Ultradian rhythms in life processes , London : Springer .
  • Lloyd , D and Rossi , E R . 1993 . Biological rhythms as organization and information . Biol Rev , 68 : 563 – 577 .
  • Lloyd , D , Salgado , E J , Turner , M R , Suller , M TE and Murray , D . 2002a . Cycles of mitochondrial energization driven by the ultradian clock in a continuous culture of Saccharomyces cerevisiae . Microbiology , 148 : 3715 – 3724 .
  • Lloyd , D , Salgado , L EJ , Turner , M P and Murray , D B . 2002b . Respiratory oscillations in yeast: clock-driven mitochondrial cycles of energization . FEBS Lett , 519 : 41 – 44 .
  • Lloyd , D and Stupfel , M . 1991 . The occurrence and functions of ultradian rhythms . Biol Rev , 66 : 275 – 299 .
  • Martegani , E , Porro , D , Ranzi , B M and Alberghina , L . 1990 . Involvement of a cell size control mechanism in the induction and maintenance of oscillations in continuous cultures of budding yeast . Biotech Bioeng , 36 : 453 – 459 .
  • Millar , A J . 1999 . Biological clocks in Arabidopsis thaliana . New Phytol , 141 : 175 – 197 .
  • Millet , B , Bolton , A M , Hayoum , C and Koukkari , W L . 1988 . An experimental analysis and comparison of three rhythms of movements in bean Phaseolus vulgaris L . Chronobiol Int , 5 : 187 – 193 .
  • Millet , B and Koukkari , W L . 1990 . Ultradian oscillations of three variables in the circumnutation movements of shoots . Chronobiologia , 1 : 53 – 58 .
  • Millet , B , Melin , D , Bonnet , B , Ibrahim , C and Mercier , J . 1984 . Rhythmic circumnutation movement of the shoots in Phaseolus vulgaris L . Chronobiol Int , 1 : 11 – 19 .
  • Millet , B , Melin , D , Bonnet , B , Tavant , H and Mercier , J . 1978 . Controle experimental de la durée de la periode du movement revolutif du Haricot. Role des ions Li+ et K+ dans le mechanisme de le phénomêne périodique . Physiol Veg , 16 : 805 – 815 .
  • Morré , D J , Ternes , P and Morré , D M . 2002a . Cell enlargement of plant tissue explants oscillates with a temperature-compensated period of 24 min . In Vitro Cell Dev Biol Plant , 38 : 18 – 28 .
  • Morré , D J , Church , P J , Pletcher , T , Tang , X , Wu , L Y and Morré , D M . 2002b . Biochemical basis for the biological clock . Biochem , 41 : 11941 – 11945 .
  • Münch , T , Sonnleitner , B and Fiechter , A . 1992 . New sights into the synchronization mechanism with forced synchronous cultures of Saccharomyces cerevisiae . J Biotechnol , 24 : 299 – 314 .
  • Murray , D B , Engelen , F , Keulers , M , Kuriyama , D and Lloyd , D . 1998 . NO+, but not NO•, inhibits respiratory oscillations in ethanol-grown chemostat cultures of Saccharomyces cerevisiae . FEBS Lett , 431 : 297 – 299 .
  • Murray , D B , Engelen , F , Lloyd , D and Kuriyama , H . 1999 . Involvement of glutathione in the regulation of respiratory oscillation during a continuous culture of Saccharomyces cerevisiae . Microbiology , 145 : 2739 – 2745 .
  • Murray , D B , Klevecz , R R and Lloyd , D . 2003 . Generation and maintenance of synchrony in Saccharomyces cerevisiae continuous culture . Exp Cell Res , 287 : 10 – 15 .
  • Murray , D B , Roller , S , Kuriyama , H and Lloyd , D . 2001 . Clock control of ultradian respiratory oscillation found during yeast continuous culture . J Bacteriol , 183 : 253 – 7259 .
  • Parulekar , S J , Semones , G B , Rolf , M J , Lievense , J C and Lim , H C . 1986 . Induction and eliminations of oscillations in continuous cultures of yeast (Saccharomyces cerevisiae) . Biotech Bioeng , 28 : 700 – 710 .
  • Pirt , S J . 1975 . Principles of microbe and cell cultivation , Blackwell Scientific .
  • Pittendrigh , C S . 1972 . Circadian surfaces and the diversity of possible roles of circadian organization in photoperiodic induction . Proc Natl Acad Sci USA , 69 : 2734 – 2737 .
  • Porro , D , Martegani , E , Razni , B M and Alberghina , L . 1988 . Oscillations in continuous cultures of budding yeast: a segregated parameter analysis . Biotech Bioeng , 32 : 411 – 417 .
  • Reich , J G and Selkov , E E . 1981 . Energy metabolism of the cell , London : Academic Press .
  • Roblin , G . 1977 . Les rhythmes endogenes des mouvements folaires chez Mimosa pudica L . J Interdisc Cycle Res , 8 : 89 – 109 .
  • Salgado , L EJ , Murray , D B and Lloyd , D . 2002 . Some antidepressant agents (Li+, monoamine oxidase type A inhibitors) perturb the ultradian clock in Saccharomyces cerevisiae . Biol Rhythm Res , 33 : 351 – 361 .
  • Satroutdinov , A D , Kuriyama , H and Kobayashi , H . 1992 . Oscillatory metabolism of Saccharomyces cerevisiae in continuous culture . FEMS Microbiol Lett , 77 : 261 – 267 .
  • Schultz , H and Lavie , P . 1985 . Ultradian rhythms in physiology and behaviour , Berlin : Springer-Verlag .
  • Selkov , E E . 1968 . Self-oscillations in glycolysis. Simple single-frequency model . Molecular Biol , 2 : 252 – 266 .
  • Selkov , E E . 1980 . Instability and self-oscillations in the cell energy metabolism . Ber Bundesges Phys Chem , 84 : 399 – 402 .
  • Shabala , S N and Newman , I A . 1997a . Proton and calcium flux oscillations in the elongation region correlate with root mutation . Physiol Plant , 100 : 917 – 926 .
  • Shabala , S N and Newman , I A . 1997b . Root mutation modelled by two ion flux-linked growth waves around the root . Physiol Plant , 101 : 770 – 776 .
  • Shabala , S N and Newman , I A . 1998 . Osmotic semiactivity of Ca2+ and H+ transporters in corn roots: effect on fluxes and their oscillations in the elongation region . J Memb Biol , 161 : 45 – 52 .
  • Shabala , S N , Newman , I A and Morris , J . 1997 . Oscillations in H+ and Ca2+ ion fluxes around the elongation region of corn roots and effects of external pH . Plant Physiol , 113 : 111 – 118 .
  • Sharma , V K , Bardal , T K and Johnsson , A . 2001 . Light-dependent changes in the leaf-movement rhythm of Desmodium gyrans Z . Naturforsch , 58 : 81 – 86 .
  • Sharma , V K , Jensen , C and Johnsson , A . 2003 . Phase response curve for the ultradian rhythm of Desmodium gyrans using DC current pulses Z . Naturforsch , 56 : 77 – 81 .
  • Sheppard , J D and Dawson , P SS . 1999 . Cell synchrony and periodic behaviour in yeast populations . Canad J Chem Eng , 77 : 893 – 902 .
  • Sohn , H Y and Kuriyama , H . 2001 . Ultradian metabolic oscillation of Saccharomyces cerevisiae during aerobic continuous culture: hydrogen sulphide, a population synchronizer is produced by sulphite reductase . Yeast , 18 : 125 – 135 .
  • Sohn , H Y , Murray , D B and Kuriyama , H . 2000 . Ultradian oscillation of Saccharomyces cerevisiae: H2S mediates population synchrony . Yeast , 16 : 1185 – 1190 .
  • Somers , D E . 1999 . The physiology and molecular bases of the plant circadian clock . Plant Physiol , 121 : 9 – 19 .
  • Spurny , M . 1976 . Synchronization of oscillatory rhythms of stems and leaves . Biol Plant , 18 : 277 – 282 .
  • Strässle , C , Sonnleitner , B and Fiechter , A . 1988 . A predictive model for the spontaneous synchronization of yeast (Saccharomyces cerevisiae) grown in continuous culture . J Biotech , 7 : 299 – 318 .
  • Strogatz , S . 2003 . Synch: The emerging science of spontaneous order , New York : Hyperion .
  • Stupfel , M . 1986 . Abstracts of the international colloquium on ultradian rhythms of mean and low frequencies: a comparative physiological approach, Paris 10 – 12 April . J Interdisc Cycle Res , 17 : 125 – 162 .
  • Stupfel , M , Gourlet , V , Court , L , Perramon , A , Mérot , P and Lemercerre , J . 1990 . There are basic rest activity ultradian rhythms of carbon dioxide emission in small laboratory vertebrates characteristic of each species . Prog Clin Biol Res , 341A : 179 – 184 .
  • Termonia , Y and Ross , J . 1981 . Oscillations and control features in glycolysis: analysis of resonance effects . Proc Natl Acad Sci USA , 78 : 2952 – 2956 .
  • Tonazuka , H , Wang , J and Mitsui , K . 2001 . Analysis of the upstream regulatory region of the GTS1 gene required for its oscillatory expression . J Biochem (Tokyo) , 130 : 589 – 595 .
  • Wagner , E , Deitzer , G F , Fischer , S , Frosh , S , Kempf , O and Strabele , L . 1975 . Endogenous oscillations in pathways of energy transduction: related to circadian rhythmicity and photoperiodic control . Bio Systems , 7 : 68 – 76 .
  • Wagner , E , Kiefer , S , Penel , C , Normann , J , Ruiz-Fernandez , S , Bonzon , M and Greppin , H . 1995 . “ Circadian rhythms, membranes and susceptibility to environmental factors ” . In Membranes and Circadian Rhythms , Edited by: Vanden Driessche , T , Guisset , J L and Petiau-de Vries , G M . 187 – 200 . Heidelberg : Springer-Verlag .
  • Wagner , E , Bonzon , M , Normann , J , Albrechtová , J TP , Machácková , J and Greppin , H . 1996 . “ Signal transduction and metabolic control of timing in photoperiodism – The case of flower initiation ” . In Vistas on Biorhythmicity , Edited by: Greppin , H , Degli Agosti , R and Bonzon , M . 3 – 23 . Geneva : University of Geneva .
  • Wagner , E , Normann , J , Albrechtová , J PT , Walczysko , P , Bonzon , M and Greppin , H . 1998 . Electrochemical-hydraulic signalling in photoperiodic control of flowering . Flowering Newsletter , 26 : 62 – 67 .
  • Wang , J Q , Lui , W D , Mitsui , K and Tsurugi , K . 2001 . Evidence for the involvement of the GTS1 gene product in the regulation of biological rhythms in the continuous culture of the yeast Saccharomyces cerevisiae . FEBS Lett , 489 : 81 – 86 .
  • Weber , U , Engelmann , W and Mayer , W E . 1992 . Effects of tetraethyl ammonium chloride (TEA) vanadate and alkali ions on the lateral leaf movement rhythm of Desmodium motorium (Houtt.) . Merr Chronobiol Int , 4 : 269 – 277 .
  • Wever , R A . 1992 . “ The sleep-wake threshold in human circadian rhythms as a determinant of ultradian rhythms ” . In Ultradian rhythms in life processes , Edited by: Lloyd , D and Rossi , E R . 307 – 322 . London : Springer-Verlag .

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