Retraction: PER-TIM Interactions with the Photoreceptor Cryptochrome Mediate Circadian Temperature Responses in Drosophila (PLoS Biology (2007) 5:6 (e146) DOI: 10.1371/journal.pbio.0050146);PER-TIM interactions with the photoreceptor cryptochrome mediate circadian temperature responses in Drosophila

PLoS Biology

Volumn 5, Issue 6, 2007, Pages 1257-1266

  Kaushik, Rachna ^a,c   Nawathean, Pipat ^a   Busza, Ania ^b   Murad, Alejandro ^b   Emery, Patrick ^b   Rosbash, Michael ^a  

^a BRANDEIS UNIVERSITY   (United States)

^b UNIVERSITY OF MASSACHUSETTS MEDICAL SCHOOL   (United States)

^c Och Spine at New York Presbyterian Hospitals   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CRYPTOCHROME; DROSOPHILA PROTEIN; FLAVOPROTEIN; NUCLEAR PROTEIN; PERIOD PROTEIN, INSECT; TIMELESS PROTEIN, DROSOPHILA; UNCLASSIFIED DRUG;

ARTICLE; CHEMICAL INTERACTION; CIRCADIAN RHYTHM; CONTROLLED STUDY; DROSOPHILA; LIGHT ADAPTATION; NONHUMAN; PHOTORECEPTOR CELL; PROTEIN DEPLETION; PROTEIN FUNCTION; PROTEIN PROTEIN INTERACTION; SEASONAL VARIATION; ANIMAL; ANIMAL BEHAVIOR; BIOLOGICAL MODEL; BIOLOGICAL RHYTHM; GENETICS; HEAT; LIGHT; METABOLISM; MUTATION; PHYSIOLOGY; TIME;

ANIMALS; BEHAVIOR, ANIMAL; BIOLOGICAL CLOCKS; CIRCADIAN RHYTHM; DROSOPHILA; DROSOPHILA PROTEINS; FLAVOPROTEINS; HEAT; LIGHT; MODELS, BIOLOGICAL; MUTATION; NUCLEAR PROTEINS; TIME FACTORS;

EID: 34250340567     PISSN: 15449173     EISSN: 15457885     Source Type: Journal    
DOI: 10.1371/journal.pbio.1002403     Document Type: Erratum

References (47)

1. Dunlap JC, Loros JJ, Liu Y, Crosthwaite SK (1999) Eukaryotic circadian systems: Cycles in common. Genes Cells 4: 1-10.
2. Allada R, Emery P, Takahashi JS, Rosbash M (2001) Stopping time: The genetics of fly and mouse circadian clocks. Annu Rev Neurosci 24: 1091-1119.
3. Nawathean P, Rosbash M (2004) The doubletime and CKII kinases collaborate to potentiate Drosophila PER transcriptional repressor activity. Mol Cell 13: 213-223.
4. Dunlap JC (2004) Kinases and circadian clocks: per goes it alone. Dev Cell 6: 160-161.
5. Sathyanarayanan S, Zheng X, Xiao R, Sehgal A (2004) Posttranslational regulation of Drosophila PERIOD protein by protein phosphatase 2A. Cell 116: 603-615.
6. Yu W, Zheng H, Houl JH, Dauwalder B, Hardin PE (2006) PER-dependent rhythms in CLK phosphorylation and E-box binding regulate circadian transcription. Genes Dev 20: 723-733.
7. Kim EY, Edery I (2006) Balance between DBT/CKIepsilon kinase and protein phosphatase activities regulate phosphorylation and stability of Drosophila CLOCK protein. Proc Natl Acad Sci U S A 103: 6178-6183.
8. Stanewsky R (2002) Clock mechanisms in Drosophila. Cell Tissue Res 309: 11-26.
9. Cashmore AR (2003) Cryptochromes: Enabling plants and animals to determine circadian time. Cell 114: 537-543.
10. Partch CL, Sancar A (2005) Photochemistry and photobiology of cryptochrome blue-light photopigments: The search for a photocycle. Photochem Photobiol 81: 1291-1304.
11. Klarsfeld A, Malpel S, Michard-Vanhee C, Picot M, Chelot E, et al. (2004) Novel features of cryptochrome-mediated photoreception in the brain circadian clock of Drosophila. J Neurosci 24: 1468-1477.
12. Egan ES, Franklin TM, Hilderbrand-Chae MJ, McNeil GP, Roberts MA, et al. (1999) An extraretinally expressed insect cryptochrome with similarity to the blue light photoreceptors of mammals and plants. J Neurosci 19: 3665-3673.
13. Emery P, Stanewsky R, Helfrich-Förster C, Emery-Le M, Hall JC, et al. (2000) Drosophila CRY is a deep brain circadian photoreceptor. Neuron 26: 493-504.
14. b mutation identifies cryptochrome as a circadian photoreceptor in Drosophila. Cell 95: 681-692.
15. Emery P, Stanewsky R, Hall JC, Rosbash M (2000) A unique circadian-rhythm photoreceptor. Nature 404: 456-457.
16. Helfrich-Forster C, Winter C, Hofbauer A, Hall JC, Stanewsky R (2001) The circadian clock of fruit flies is blind after elimination of all known photoreceptors. Neuron 30: 249-261.
17. Ceriani MF, Darlington TK, Staknis D, Mas P, Petti AA, et al. (1999) Light-dependent sequestration of TIMELESS by CRYPTOCHROME. Science 285: 553-556.
18. Rosato E, Codd V, Mazzotta G, Piccin A, Zordan M, et al. (2001) Light-dependent interaction between Drosophila CRY and the clock protein PER mediated by the carboxy terminus of CRY. Curr Biol 11: 909-917.
19. Lin FJ, Song W, Meyer-Bernstein E, Naidoo N, Sehgal A (2001) Photic signaling by cryptochrome in the Drosophila circadian system. Mol Cell Biol 21: 7287-7294.
20. Busza A, Emery-Le M, Rosbash M, Emery P (2004) Roles of the two Drosophila CRYPTOCHROME structural domains in circadian photoreception. Science 304: 1503-1506.
21. Hunter-Ensor M, Ousley A, Sehgal A (1996) Regulation of the Drosophila protein timeless suggests a mechanism for resetting the circadian clock by light. Cell 84: 677-685.
22. Zeng H, Qian Z, Myers MP, Rosbash M (1996) A light-entrainment mechanism for the Drosophila circadian clock. Nature 380: 129-135.
23. Lee C, Parikh V, Itsukaichi T, Bae K, Edery I (1996) Resetting the Drosophila clock by photic regulation of PER and a PER-TIM complex. Science 271: 1740-1744.
24. Myers MP, Wager-Smith K, Rothenfluh-Hilfiker A, Young MW (1996) Light-induced degradation of TIMELESS and entrainment of the Drosophila circadian clock. Science 271: 1736-1740.
25. Koh K, Zheng X, Sehgal A (2006) JETLAG resets the Drosophila circadian clock by promoting light-induced degradation of TIMELESS. Science 312: 1809-1812.
26. Pittendrigh CS (1960) Circadian rhythms and the circadian organization of living systems. Cold Spring Harbor Symp Quant Biol 25: 159-182.
27. Lahiri K, Vallone D, Gondi SB, Santoriello C, Dickmeis T, et al. (2005) Temperature regulates transcription in the zebrafish circadian clock. PLoS Biol 3: e351. doi:10.1371/journal.pbio.0030351.
28. Underwood H, Calaban M (1987) Pineal melatonin rhythms in the lizard Anolis carolinensis: I. Response to light and temperature cycles. J Biol Rhythms 2: 179-193.
29. Francis AJ, Coleman GJ (1988) The effect of ambient temperature cycles upon circadian running and drinking activity in male and female laboratory rats. Physiol Behav 43: 471-477.
30. Yoshii T, Heshiki Y, Ibuki-Ishibashi T, Matsumoto A, Tanimura T, et al. (2005) Temperature cycles drive Drosophila circadian oscillation in constant light that otherwise induces behavioural arrhythmicity. Eur J Neurosci 22: 1176-1184.
31. Zimmerman WF, Pittendrigh CS, Pavlidis T (1968) Temperature compensation of the circadian oscillation in Drosophila pseudoobscura and its entrainment by temperature cycles. J Insect Physiol 14: 669-684.
32. Aschoff J (1965) Response curves in circadian periodicity. In: Aschoff J, editor. Circadian clocks. Amsterdam: North Holland. pp. 94-111.
33. Levine JD, Casey CI, Kalderon DD, Jackson FR (1994) Altered circadian pacemaker functions and cyclic AMP rhythms in the Drosophila learning mutant dunce. Neuron 13: 967-974.
34. SL mutant affects a restricted portion of the Drosophila melanogaster circadian cycle. J Biol Rhythm 13: 380-392.
35. Edery I, Rutila JE, Rosbash M (1994) Phase shifting of the circadian clock by induction of the Drosophila period protein. Science 263: 237-240.
36. Sidote D, Majercak J, Parikh V, Edery I (1998) Differential effects of light and heat on the Drosophila circadian clock proteins PER and TIM. Mol Cell Biol 18: 2004-2013.
37. Suri V, Qian Z, Hall JC, Rosbash M (1998) Evidence that the TIM light response is relevant to light-induced phase shifts in Drosophila melanogaster. Neuron 21: 225-234.
38. Yang Z, Emerson M, Su HS, Sehgal A (1998) Response of the timeless protein to light correlates with behavioral entrainment and suggests a nonvisual pathway for circadian photoreception. Neuron 21: 215-223.
39. Renn SC, Park JH, Rosbash M, Hall JC, Taghert PH (1999) A pdf neuropeptide gene mutation and ablation of PDF neurons each cause severe abnormalities of behavioral circadian rhythms in Drosophila. Cell 99: 791-802.
40. Kaneko M, Hall JC (2000) Neuroanatomy of cells expressing clock genes in Drosophila: Transgenic manipulation of the period and timeless genes to mark the perikarya of circadian pacemaker neurons and their projections. J Compar Neuro 422: 66-94.
41. Konopka RJ, Pittendrigh C, Orr D (1989) Reciprocal behavior associated with altered homeostasis and photosensitivity of Drosophila clock mutants. J Neurogenet 6: 1-10.
42. SL mutant of the Drosophila rhythm gene timeless manifests allele-specific interactions with period gene mutants. Neuron 17: 921-929.
43. Lindquist S (1986) The heat-shock response. Annu Rev Biochem 55: 1151-1191.
44. Rensing L, Bos A, Kroeger J, Cornelius G (1987) Possible link between circadian rhythm and heat shock response in Neurospora crassa. Chronobiol Int 4: 543-549.
45. Stoleru D, Nawathean P, Fernandez Mde L, Menet JS, Ceriani MF, et al. (2007) The Drosophila circadian network is a seasonal timer. Cell 129: 207-219.
46. Levine JD, Funes P, Dowse HB, Hall JC (2002) Signal analysis of behavioral and molecular cycles. BMC Neurosci 3: 1.
47. Rush BL, Murad A, Emery P, Giebultowicz JM (2006) Ectopic CRYPTOCHROME renders TIM light sensitive in the Drosophila ovary. J Biol Rhythms 21: 272-278.