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Biorhythmik I: Circadiane Rhythmen und innere Uhren

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Zu Kapitel 13: 24-h-Rhythmik, Schlaf Bücher

  1. Refinetti R (2000) Circadian physiology. CRC Press, New YorkGoogle Scholar
  2. Siegel J (2002) The neuronal control of sleep and waking. Springer, Berlin Heidelberg New York TokyoGoogle Scholar

Artikel

  1. Arendt J, Skene DJ (2005) Melatonin as a chronobiotic. Sleep Med Rev 9(1): 25–39PubMedCrossRefGoogle Scholar
  2. Aschoff J (1981) A survey on biological rhythms. In: Aschoff J (ed) Biological rhythms. Handbook of behavioural neurobiology, vol 4. Plenum/ NY, pp 3–10Google Scholar
  3. Aschoff J (1981) Free running and entrained circadian rhythms. In: Aschoff J (ed) Biological rhythms. Handbook of behavioural neurobiology, vol 4. Plenum/ NY, pp 81–94Google Scholar
  4. Ashmore LJ, Sehgal A (2003) A fly’s eye of circadian entrain-ment. J Biol Rhythms 18(3): 206–216PubMedCrossRefGoogle Scholar
  5. Csernus V, Mess B (2001) Biorhyfhms and pineal gland. Neuro Endocrin Letters 24(6): 404–411Google Scholar
  6. Earnest DJ et al. (2001) Immortal time: Circadian clock properties of rat suprachiasmatic cell lines. Science 283: 693–699CrossRefGoogle Scholar
  7. Egan ES et al. (2001) An extraretinally expressed insect cryp-tochrome with similarity to the blue light photoreceptor of mammals and plants. J Neurosci 19: 3665–3680Google Scholar
  8. Espana RA et al. (2001) Wake-promoting and sleep-suppressing actions of hypocretin (orexin): basal forebrain sites of action. Neuroscience 106(4): 699–715PubMedCrossRefGoogle Scholar
  9. Hastings MH, Herzog ED (2004) Clock genes, oscillators, and cellular networks in the suprachiasmatic nuclei. J Biol Rhythms 19(5): 400–413PubMedCrossRefGoogle Scholar
  10. Hastings M, Mayword SM (2000) Circadian clocks in the mammalian brain. Bioessays 22: 1521–1878CrossRefGoogle Scholar
  11. Hattar S et al. (2003) Melanopsin and rod-cone photosensitive systems account for all major accessory visual functions in mice. Nature 424(6944): 76–81PubMedCrossRefGoogle Scholar
  12. Hayaishi O (2000) Molecular mechanisms of sleep-wake regulation: a role of prostaglandin D2. Philos Trans Roy Soc Lond B Biol Sci 355: 275–280CrossRefGoogle Scholar
  13. Helfrich-Förster C (2002) The circadian system of Drosophila melanogaster and its light input pathways. Zoology 105: 297–312PubMedCrossRefGoogle Scholar
  14. Kalsbeek A, Buijs RM (2002) Output pathways of the mammalian suprachiasmatic nucleus: coding circadian time by transmitter selection and specific targeting. Cell Tissue Res 309(1): 109–118PubMedCrossRefGoogle Scholar
  15. Klarsfeld A et al. (2004) Novel features of cryptochrome-me-diated photoreception in the brain of Drosophila. J Neurosci 24(6): 1468–1477PubMedCrossRefGoogle Scholar
  16. Lakin-Thomas PL (2000) Circadian rhythms. Trends in Genetics 16: 135–142PubMedCrossRefGoogle Scholar
  17. Mendelson WB, Basile AS (2001) The hypnotic actions of the fatty acid, oleomide. Neuropsychopharmacology 25(5 Suppl): S36–39PubMedCrossRefGoogle Scholar
  18. Morell V (1996) Setting a biological stopwatch. Science 271: 905–906PubMedGoogle Scholar
  19. Mukhametov LM (1985) Unihemispheric slow wave sleep in the brain of dolphins and seals. In: Inoue S, Borbely AA (eds) Endogenous sleep substances and sleep regulation. Fischer, New York, pp 67–75Google Scholar
  20. Palmer JD (2002) The living clock: the orchestration of biological rhythms. Oxford Univ Press, OxfordGoogle Scholar
  21. Panda S et al. (2002) Circadian rhythms from flies to human. Nature 417: 329–334PubMedCrossRefGoogle Scholar
  22. Pearson KG (2000) Neural adaptation in the generation of rhythmic behavior. Annu Review Physiol 62: 939–946CrossRefGoogle Scholar
  23. Peirson SN et al. (2004) Expression of the candidate circadian photopigment melanopsin (Opn4) in the mouse retinal pigment epithelium. Brain Res Mol Brain Res 123(1/2):132–135PubMedCrossRefGoogle Scholar
  24. Pevet P (2000) Melatonin and biological rhythms. Biological Signals and Receptors 9: 203–212PubMedCrossRefGoogle Scholar
  25. Pöggeler B et al. (1991) Pineal hormone melatonin oscillates also in the dinoflagellate Gonyaulax polyhedra. Naturwis-senschaften 78: 268–269CrossRefGoogle Scholar
  26. Provencio I et al. (2000) A novel opsin in the inner retina. J Neurosci 20: 600–605PubMedGoogle Scholar
  27. Reppert SM, Weaver DR (2001) Molecular analysis of mammalian circadian rhythms. Annu Rev Physiol 63: 647–676PubMedCrossRefGoogle Scholar
  28. Reppert SM, Weaver DR (2002) Coordination of circadian timing in mammals. Nature 418: 935–941PubMedCrossRefGoogle Scholar
  29. Roenneberg T, Merrow M (2005) Circadian clock: translation. Curr Biol 15(12): R470–473PubMedCrossRefGoogle Scholar
  30. Sancar A (2004) Regulation of the mammalian clock by cryptochrome. J Biol Chem 79: 34079–34082CrossRefGoogle Scholar
  31. Stanewsky R (2003) Genetic analysis of the circadian system in Drosophila melanogaster and mammals. J Neurobiol 54(1): 111–147PubMedCrossRefGoogle Scholar
  32. Ueck M (1982) Morphologie und Physiologie des Pineal-organs in der Evolution der Wirbeltiere. Verh Dtsch Zool Ges 1982: 61–80. Fischer, StuttgartGoogle Scholar
  33. Vigh B et al. (2002) Nonvisual photoreceptors of the deep brain, pineal organs and retina. Histol Pathol 17: 555–590Google Scholar
  34. Williams JA, Sehgal A (2001) Molecular components of the circadian system in Drosophila. Annual Rev Physiol 63: 729–755PubMedCrossRefGoogle Scholar
  35. Wollnik F (1995) Die innere Uhr der Säugetiere. Biol in unserer Zeit 25(1): 37–43CrossRefGoogle Scholar

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