| |
Author |
Title |
Year |
Publication |
Volume |
Pages |
Links  |
|
|
Hozer, C.; Pifferi, F. |
Physiological and cognitive consequences of a daily 26 h photoperiod in a primate: exploring the underlying mechanisms of the circadian resonance theory |
2020 |
Proceedings. Biological Sciences |
287 |
20201079 |
|
|
|
Gatford, K.L.; Kennaway, D.J.; Liu, H.; Kleemann, D.O.; Kuchel, T.R.; Varcoe, T.J. |
Simulated shift work disrupts maternal circadian rhythms and metabolism, and increases gestation length in sheep |
2019 |
The Journal of Physiology |
597 |
1889-1904 |
|
|
|
van Diepen, H.C.; Foster, R.G.; Meijer, J.H. |
A colourful clock |
2015 |
PLoS Biology |
13 |
e1002160 |
|
|
|
Dauchy, R.T.; Xiang, S.; Mao, L.; Brimer, S.; Wren, M.A.; Yuan, L.; Anbalagan, M.; Hauch, A.; Frasch, T.; Rowan, B.G.; Blask, D.E.; Hill, S.M. |
Circadian and melatonin disruption by exposure to light at night drives intrinsic resistance to tamoxifen therapy in breast cancer |
2014 |
Cancer Research |
74 |
4099-4110 |
|
|
|
Landgraf, D.; McCarthy, M.J.; Welsh, D.K. |
The role of the circadian clock in animal models of mood disorders |
2014 |
Behavioral Neuroscience |
128 |
344-359 |
|
