-
1
-
-
84869036539
-
Circadian topology of metabolism
-
J. Bass Circadian topology of metabolism Nature 491 2012 348 356
-
(2012)
Nature
, vol.491
, pp. 348-356
-
-
Bass, J.1
-
2
-
-
77955983063
-
Circadian control of global gene expression patterns
-
C.J. Doherty, and S.A. Kay Circadian control of global gene expression patterns Annu. Rev. Genet. 44 2010 419 444
-
(2010)
Annu. Rev. Genet.
, vol.44
, pp. 419-444
-
-
Doherty, C.J.1
Kay, S.A.2
-
3
-
-
79955840690
-
The cyanobacterial circadian system: From biophysics to bioevolution
-
C.H. Johnson, P.L. Stewart, and M. Egli The cyanobacterial circadian system: from biophysics to bioevolution Annu. Rev. Biophys. 40 2011 143 167
-
(2011)
Annu. Rev. Biophys.
, vol.40
, pp. 143-167
-
-
Johnson, C.H.1
Stewart, P.L.2
Egli, M.3
-
4
-
-
79951558268
-
Another place, another timer: Marine species and the rhythms of life
-
K. Tessmar-Raible, F. Raible, and E. Arboleda Another place, another timer: marine species and the rhythms of life Bioessays 33 2011 165 172
-
(2011)
Bioessays
, vol.33
, pp. 165-172
-
-
Tessmar-Raible, K.1
Raible, F.2
Arboleda, E.3
-
5
-
-
0029790502
-
Crab clockwork: The case for interactive circatidal and circadian oscillators controlling rhythmic locomotor activity of Carcinus maenas
-
E. Naylor Crab clockwork: the case for interactive circatidal and circadian oscillators controlling rhythmic locomotor activity of Carcinus maenas Chronobiol. Int. 13 1996 153 161
-
(1996)
Chronobiol. Int.
, vol.13
, pp. 153-161
-
-
Naylor, E.1
-
6
-
-
0029175071
-
Review of the dual-clock control of tidal rhythyms and the hypothesis that the same clock governs both circatidal and circadian rhythms
-
J.D. Palmer Review of the dual-clock control of tidal rhythyms and the hypothesis that the same clock governs both circatidal and circadian rhythms Chronobiol. Int. 12 1995 299 310
-
(1995)
Chronobiol. Int.
, vol.12
, pp. 299-310
-
-
Palmer, J.D.1
-
7
-
-
0000373178
-
Ontogeny of an endogenous rhythm in Eurydice pulchra
-
M.H. Hastings, and E. Naylor Ontogeny of an endogenous rhythm in Eurydice pulchra J. Exp. Mar. Biol. Ecol. 46 1980 137 145
-
(1980)
J. Exp. Mar. Biol. Ecol.
, vol.46
, pp. 137-145
-
-
Hastings, M.H.1
Naylor, E.2
-
8
-
-
0001737361
-
The swimming rhythm of Eurydice pulchra
-
D.A. Jones, and E. Naylor The swimming rhythm of Eurydice pulchra J. Exp. Mar. Biol. Ecol. 4 1970 188 189
-
(1970)
J. Exp. Mar. Biol. Ecol.
, vol.4
, pp. 188-189
-
-
Jones, D.A.1
Naylor, E.2
-
9
-
-
0002682130
-
The pigmentary effector system. VI. The dual character of endocrine coordination in amphibian colour change
-
L. Hogben, and D. Slome The pigmentary effector system. VI. The dual character of endocrine coordination in amphibian colour change Proc. R. Soc. Lond. B Biol. Sci. 108 1931 10 53
-
(1931)
Proc. R. Soc. Lond. B Biol. Sci.
, vol.108
, pp. 10-53
-
-
Hogben, L.1
Slome, D.2
-
10
-
-
0014287099
-
Temperature compensation of the circadian oscillation in Drosophila pseudoobscura and its entrainment by temperature cycles
-
W.F. Zimmerman, C.S. Pittendrigh, and T. Pavlidis Temperature compensation of the circadian oscillation in Drosophila pseudoobscura and its entrainment by temperature cycles J. Insect Physiol. 14 1968 669 684
-
(1968)
J. Insect Physiol.
, vol.14
, pp. 669-684
-
-
Zimmerman, W.F.1
Pittendrigh, C.S.2
Pavlidis, T.3
-
11
-
-
67651027271
-
Selective inhibition of casein kinase 1 epsilon minimally alters circadian clock period
-
K.M. Walton, K. Fisher, D. Rubitski, M. Marconi, Q.J. Meng, M. Sládek, J. Adams, M. Bass, R. Chandrasekaran, and T. Butler Selective inhibition of casein kinase 1 epsilon minimally alters circadian clock period J. Pharmacol. Exp. Ther. 330 2009 430 439
-
(2009)
J. Pharmacol. Exp. Ther.
, vol.330
, pp. 430-439
-
-
Walton, K.M.1
Fisher, K.2
Rubitski, D.3
Marconi, M.4
Meng, Q.J.5
Sládek, M.6
Adams, J.7
Bass, M.8
Chandrasekaran, R.9
Butler, T.10
-
12
-
-
84865558040
-
Identification of small molecule activators of cryptochrome
-
T. Hirota, J.W. Lee, P.C. St John, M. Sawa, K. Iwaisako, T. Noguchi, P.Y. Pongsawakul, T. Sonntag, D.K. Welsh, and D.A. Brenner Identification of small molecule activators of cryptochrome Science 337 2012 1094 1097
-
(2012)
Science
, vol.337
, pp. 1094-1097
-
-
Hirota, T.1
Lee, J.W.2
St John, P.C.3
Sawa, M.4
Iwaisako, K.5
Noguchi, T.6
Pongsawakul, P.Y.7
Sonntag, T.8
Welsh, D.K.9
Brenner, D.A.10
-
13
-
-
84860291442
-
Regulation of circadian behaviour and metabolism by synthetic REV-ERB agonists
-
L.A. Solt, Y. Wang, S. Banerjee, T. Hughes, D.J. Kojetin, T. Lundasen, Y. Shin, J. Liu, M.D. Cameron, and R. Noel Regulation of circadian behaviour and metabolism by synthetic REV-ERB agonists Nature 485 2012 62 68
-
(2012)
Nature
, vol.485
, pp. 62-68
-
-
Solt, L.A.1
Wang, Y.2
Banerjee, S.3
Hughes, T.4
Kojetin, D.J.5
Lundasen, T.6
Shin, Y.7
Liu, J.8
Cameron, M.D.9
Noel, R.10
-
14
-
-
34347363069
-
A DOUBLETIME kinase binding domain on the Drosophila PERIOD protein is essential for its hyperphosphorylation, transcriptional repression, and circadian clock function
-
E.Y. Kim, H.W. Ko, W. Yu, P.E. Hardin, and I. Edery A DOUBLETIME kinase binding domain on the Drosophila PERIOD protein is essential for its hyperphosphorylation, transcriptional repression, and circadian clock function Mol. Cell. Biol. 27 2007 5014 5028
-
(2007)
Mol. Cell. Biol.
, vol.27
, pp. 5014-5028
-
-
Kim, E.Y.1
Ko, H.W.2
Yu, W.3
Hardin, P.E.4
Edery, I.5
-
15
-
-
34347356507
-
A small conserved domain of Drosophila PERIOD is important for circadian phosphorylation, nuclear localization, and transcriptional repressor activity
-
P. Nawathean, D. Stoleru, and M. Rosbash A small conserved domain of Drosophila PERIOD is important for circadian phosphorylation, nuclear localization, and transcriptional repressor activity Mol. Cell. Biol. 27 2007 5002 5013
-
(2007)
Mol. Cell. Biol.
, vol.27
, pp. 5002-5013
-
-
Nawathean, P.1
Stoleru, D.2
Rosbash, M.3
-
16
-
-
0028838668
-
Rhythmic expression of timeless: A basis for promoting circadian cycles in period gene autoregulation
-
A. Sehgal, A. Rothenfluh-Hilfiker, M. Hunter-Ensor, Y. Chen, M.P. Myers, and M.W. Young Rhythmic expression of timeless: a basis for promoting circadian cycles in period gene autoregulation Science 270 1995 808 810
-
(1995)
Science
, vol.270
, pp. 808-810
-
-
Sehgal, A.1
Rothenfluh-Hilfiker, A.2
Hunter-Ensor, M.3
Chen, Y.4
Myers, M.P.5
Young, M.W.6
-
17
-
-
78650635865
-
A novel form of pigment-dispersing hormone in the central nervous system of the intertidal marine isopod, Eurydice pulchra (leach)
-
D.C. Wilcockson, L. Zhang, M.H. Hastings, C.P. Kyriacou, and S.G. Webster A novel form of pigment-dispersing hormone in the central nervous system of the intertidal marine isopod, Eurydice pulchra (leach) J. Comp. Neurol. 519 2011 562 575
-
(2011)
J. Comp. Neurol.
, vol.519
, pp. 562-575
-
-
Wilcockson, D.C.1
Zhang, L.2
Hastings, M.H.3
Kyriacou, C.P.4
Webster, S.G.5
-
18
-
-
27844578672
-
Organization of endogenous clocks in insects
-
C. Helfrich-Förster Organization of endogenous clocks in insects Biochem. Soc. Trans. 33 2005 957 961
-
(2005)
Biochem. Soc. Trans.
, vol.33
, pp. 957-961
-
-
Helfrich-Förster, C.1
-
20
-
-
38949118678
-
Cryptochromes define a novel circadian clock mechanism in monarch butterflies that may underlie sun compass navigation
-
H. Zhu, I. Sauman, Q. Yuan, A. Casselman, M. Emery-Le, P. Emery, and S.M. Reppert Cryptochromes define a novel circadian clock mechanism in monarch butterflies that may underlie sun compass navigation PLoS Biol. 6 2008 e4
-
(2008)
PLoS Biol.
, vol.6
, pp. 4
-
-
Zhu, H.1
Sauman, I.2
Yuan, Q.3
Casselman, A.4
Emery-Le, M.5
Emery, P.6
Reppert, S.M.7
-
21
-
-
84865196760
-
The circadian clock of the fly: A neurogenetics journey through time
-
O. Ozkaya, and E. Rosato The circadian clock of the fly: a neurogenetics journey through time Adv. Genet. 77 2012 79 123
-
(2012)
Adv. Genet.
, vol.77
, pp. 79-123
-
-
Ozkaya, O.1
Rosato, E.2
-
22
-
-
0030480102
-
S flies: Evidence for light-mediated delay of the negative feedback loop in Drosophila
-
S flies: evidence for light-mediated delay of the negative feedback loop in Drosophila EMBO J. 15 1996 6877 6886
-
(1996)
EMBO J.
, vol.15
, pp. 6877-6886
-
-
Marrus, S.B.1
Zeng, H.2
Rosbash, M.3
-
23
-
-
0030003222
-
Per mRNA cycling is locked to lights-off under photoperiodic conditions that support circadian feedback loop function
-
J. Qiu, and P.E. Hardin per mRNA cycling is locked to lights-off under photoperiodic conditions that support circadian feedback loop function Mol. Cell. Biol. 16 1996 4182 4188
-
(1996)
Mol. Cell. Biol.
, vol.16
, pp. 4182-4188
-
-
Qiu, J.1
Hardin, P.E.2
-
24
-
-
0030292818
-
Circadian clock neurons in the silkmoth Antheraea pernyi: Novel mechanisms of Period protein regulation
-
I. Sauman, and S.M. Reppert Circadian clock neurons in the silkmoth Antheraea pernyi: novel mechanisms of Period protein regulation Neuron 17 1996 889 900
-
(1996)
Neuron
, vol.17
, pp. 889-900
-
-
Sauman, I.1
Reppert, S.M.2
-
25
-
-
33847779219
-
Post-translational modifications regulate the ticking of the circadian clock
-
M. Gallego, and D.M. Virshup Post-translational modifications regulate the ticking of the circadian clock Nat. Rev. Mol. Cell Biol. 8 2007 139 148
-
(2007)
Nat. Rev. Mol. Cell Biol.
, vol.8
, pp. 139-148
-
-
Gallego, M.1
Virshup, D.M.2
-
26
-
-
71649093603
-
Proteomic analysis reveals the role of synaptic vesicle cycling in sustaining the suprachiasmatic circadian clock
-
M.J. Deery, E.S. Maywood, J.E. Chesham, M. Sládek, N.A. Karp, E.W. Green, P.D. Charles, A.B. Reddy, C.P. Kyriacou, K.S. Lilley, and M.H. Hastings Proteomic analysis reveals the role of synaptic vesicle cycling in sustaining the suprachiasmatic circadian clock Curr. Biol. 19 2009 2031 2036
-
(2009)
Curr. Biol.
, vol.19
, pp. 2031-2036
-
-
Deery, M.J.1
Maywood, E.S.2
Chesham, J.E.3
Sládek, M.4
Karp, N.A.5
Green, E.W.6
Charles, P.D.7
Reddy, A.B.8
Kyriacou, C.P.9
Lilley, K.S.10
Hastings, M.H.11
-
27
-
-
33744515807
-
Circadian orchestration of the hepatic proteome
-
A.B. Reddy, N.A. Karp, E.S. Maywood, E.A. Sage, M. Deery, J.S. O'Neill, G.K. Wong, J. Chesham, M. Odell, and K.S. Lilley Circadian orchestration of the hepatic proteome Curr. Biol. 16 2006 1107 1115
-
(2006)
Curr. Biol.
, vol.16
, pp. 1107-1115
-
-
Reddy, A.B.1
Karp, N.A.2
Maywood, E.S.3
Sage, E.A.4
Deery, M.5
O'Neill, J.S.6
Wong, G.K.7
Chesham, J.8
Odell, M.9
Lilley, K.S.10
-
28
-
-
0025468873
-
Circadian fluctuations of period protein immunoreactivity in the CNS and the visual system of Drosophila
-
D.M. Zerr, J.C. Hall, M. Rosbash, and K.K. Siwicki Circadian fluctuations of period protein immunoreactivity in the CNS and the visual system of Drosophila J. Neurosci. 10 1990 2749 2762
-
(1990)
J. Neurosci.
, vol.10
, pp. 2749-2762
-
-
Zerr, D.M.1
Hall, J.C.2
Rosbash, M.3
Siwicki, K.K.4
-
29
-
-
0037054013
-
Neuroanatomical studies of period gene expression in the hawkmoth, Manduca sexta
-
S. Wise, N.T. Davis, E. Tyndale, J. Noveral, M.G. Folwell, V. Bedian, I.F. Emery, and K.K. Siwicki Neuroanatomical studies of period gene expression in the hawkmoth, Manduca sexta J. Comp. Neurol. 447 2002 366 380
-
(2002)
J. Comp. Neurol.
, vol.447
, pp. 366-380
-
-
Wise, S.1
Davis, N.T.2
Tyndale, E.3
Noveral, J.4
Folwell, M.G.5
Bedian, V.6
Emery, I.F.7
Siwicki, K.K.8
-
30
-
-
0043233077
-
Patterns of PERIOD and pigment-dispersing hormone immunoreactivity in the brain of the European honeybee (Apis mellifera): Age- and time-related plasticity
-
G. Bloch, S.M. Solomon, G.E. Robinson, and S.E. Fahrbach Patterns of PERIOD and pigment-dispersing hormone immunoreactivity in the brain of the European honeybee (Apis mellifera): age- and time-related plasticity J. Comp. Neurol. 464 2003 269 284
-
(2003)
J. Comp. Neurol.
, vol.464
, pp. 269-284
-
-
Bloch, G.1
Solomon, S.M.2
Robinson, G.E.3
Fahrbach, S.E.4
-
31
-
-
0038358612
-
Distribution of per protein, pigment-dispersing hormone, prothoracicotropic hormone, and eclosion hormone in the cephalic nervous system of insects
-
R. Závodská, I. Sauman, and F. Sehnal Distribution of PER protein, pigment-dispersing hormone, prothoracicotropic hormone, and eclosion hormone in the cephalic nervous system of insects J. Biol. Rhythms 18 2003 106 122
-
(2003)
J. Biol. Rhythms
, vol.18
, pp. 106-122
-
-
Závodská, R.1
Sauman, I.2
Sehnal, F.3
-
32
-
-
0036094818
-
An insect molecular clock dates the origin of the insects and accords with palaeontological and biogeographic landmarks
-
M.W. Gaunt, and M.A. Miles An insect molecular clock dates the origin of the insects and accords with palaeontological and biogeographic landmarks Mol. Biol. Evol. 19 2002 748 761
-
(2002)
Mol. Biol. Evol.
, vol.19
, pp. 748-761
-
-
Gaunt, M.W.1
Miles, M.A.2
-
33
-
-
47549117173
-
RNA interference of the clock gene period disrupts circadian rhythms in the cricket Gryllus bimaculatus
-
Y. Moriyama, T. Sakamoto, S.G. Karpova, A. Matsumoto, S. Noji, and K. Tomioka RNA interference of the clock gene period disrupts circadian rhythms in the cricket Gryllus bimaculatus J. Biol. Rhythms 23 2008 308 318
-
(2008)
J. Biol. Rhythms
, vol.23
, pp. 308-318
-
-
Moriyama, Y.1
Sakamoto, T.2
Karpova, S.G.3
Matsumoto, A.4
Noji, S.5
Tomioka, K.6
-
34
-
-
79959895632
-
Circadian clock genes period and cycle regulate photoperiodic diapause in the bean bug Riptortus pedestris males
-
T. Ikeno, H. Numata, and S.G. Goto Circadian clock genes period and cycle regulate photoperiodic diapause in the bean bug Riptortus pedestris males J. Insect Physiol. 57 2011 935 938
-
(2011)
J. Insect Physiol.
, vol.57
, pp. 935-938
-
-
Ikeno, T.1
Numata, H.2
Goto, S.G.3
-
35
-
-
84864487361
-
RNAi of the circadian clock gene period disrupts the circadian rhythm but not the circatidal rhythm in the mangrove cricket
-
H. Takekata, Y. Matsuura, S.G. Goto, A. Satoh, and H. Numata RNAi of the circadian clock gene period disrupts the circadian rhythm but not the circatidal rhythm in the mangrove cricket Biol. Lett. 8 2012 488 491
-
(2012)
Biol. Lett.
, vol.8
, pp. 488-491
-
-
Takekata, H.1
Matsuura, Y.2
Goto, S.G.3
Satoh, A.4
Numata, H.5
-
36
-
-
7244242193
-
Coupled oscillators control morning and evening locomotor behaviour of Drosophila
-
D. Stoleru, Y. Peng, J. Agosto, and M. Rosbash Coupled oscillators control morning and evening locomotor behaviour of Drosophila Nature 431 2004 862 868
-
(2004)
Nature
, vol.431
, pp. 862-868
-
-
Stoleru, D.1
Peng, Y.2
Agosto, J.3
Rosbash, M.4
-
37
-
-
7244252844
-
Morning and evening peaks of activity rely on different clock neurons of the Drosophila brain
-
B. Grima, E. Chélot, R. Xia, and F. Rouyer Morning and evening peaks of activity rely on different clock neurons of the Drosophila brain Nature 431 2004 869 873
-
(2004)
Nature
, vol.431
, pp. 869-873
-
-
Grima, B.1
Chélot, E.2
Xia, R.3
Rouyer, F.4
-
38
-
-
84885841001
-
Circadian and circalunar clock interactions in a marine annelid
-
10.1016/j.celrep.2013.08.031 Published online September 26, 2013
-
J. Zantke, T. Ishikawa-Fujiwara, E. Arboleda, C. Lohs, K. Schipany, N. Hallay, A.D. Straw, T. Todo, and K. Tessmar-Raible Circadian and circalunar clock interactions in a marine annelid Cell Reports 2013 10.1016/j.celrep.2013. 08.031 Published online September 26, 2013
-
(2013)
Cell Reports
-
-
Zantke, J.1
Ishikawa-Fujiwara, T.2
Arboleda, E.3
Lohs, C.4
Schipany, K.5
Hallay, N.6
Straw, A.D.7
Todo, T.8
Tessmar-Raible, K.9
-
39
-
-
84871309889
-
A K(ATP) channel gene effect on sleep duration: From genome-wide association studies to function in Drosophila
-
K.V. Allebrandt, N. Amin, B. Müller-Myhsok, T. Esko, M. Teder-Laving, R.V. Azevedo, C. Hayward, J. van Mill, N. Vogelzangs, and E.W. Green A K(ATP) channel gene effect on sleep duration: from genome-wide association studies to function in Drosophila Mol. Psychiatry 18 2013 122 132
-
(2013)
Mol. Psychiatry
, vol.18
, pp. 122-132
-
-
Allebrandt, K.V.1
Amin, N.2
Müller-Myhsok, B.3
Esko, T.4
Teder-Laving, M.5
Azevedo, R.V.6
Hayward, C.7
Van Mill, J.8
Vogelzangs, N.9
Green, E.W.10
-
40
-
-
79957613599
-
MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods
-
K. Tamura, D. Peterson, N. Peterson, G. Stecher, M. Nei, and S. Kumar MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods Mol. Biol. Evol. 28 2011 2731 2739
-
(2011)
Mol. Biol. Evol.
, vol.28
, pp. 2731-2739
-
-
Tamura, K.1
Peterson, D.2
Peterson, N.3
Stecher, G.4
Nei, M.5
Kumar, S.6
|