FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock

FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock

Temperature compensation allows clocks to adapt to all seasons by having a relatively constant period length at different physiological temperatures, but the mechanism of temperature compensation is unclear. Stability of clock proteins was previously proposed to be a major factor that regulated tem...

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Main Authors: Yue Hu, Xiaolan Liu, Qiaojia Lu, Yulin Yang, Qun He, Yi Liu, Xiao Liu
Format: article
Language:EN
Published: American Society for Microbiology 2021
Subjects:
Microbiology
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Online Access:https://doaj.org/article/c6b4a28c5b1c42538a3b813b53abf087
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spelling oai:doaj.org-article:c6b4a28c5b1c42538a3b813b53abf0872021-11-03T21:15:04Z FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock 2150-751110.1128/mBio.01425-21https://doaj.org/article/c6b4a28c5b1c42538a3b813b53abf0872021-06-01T00:00:00Zhttps://journals.asm.org/doi/10.1128/mBio.01425-21https://doaj.org/toc/2150-7511 Temperature compensation allows clocks to adapt to all seasons by having a relatively constant period length at different physiological temperatures, but the mechanism of temperature compensation is unclear. Stability of clock proteins was previously proposed to be a major factor that regulated temperature compensation.Yue HuXiaolan LiuQiaojia LuYulin YangQun HeYi LiuXiao LiuAmerican Society for MicrobiologyarticleMicrobiologyQR1-502ENmBio, Vol 12, Iss 3 (2021)
institution DOAJ
collection DOAJ
language EN
topic Microbiology
QR1-502
spellingShingle Microbiology
QR1-502
Yue Hu
Xiaolan Liu
Qiaojia Lu
Yulin Yang
Qun He
Yi Liu
Xiao Liu
FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock
description Temperature compensation allows clocks to adapt to all seasons by having a relatively constant period length at different physiological temperatures, but the mechanism of temperature compensation is unclear. Stability of clock proteins was previously proposed to be a major factor that regulated temperature compensation.
format article
author Yue Hu
Xiaolan Liu
Qiaojia Lu
Yulin Yang
Qun He
Yi Liu
Xiao Liu
author_facet Yue Hu
Xiaolan Liu
Qiaojia Lu
Yulin Yang
Qun He
Yi Liu
Xiao Liu
author_sort Yue Hu
title FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock
title_short FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock
title_full FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock
title_fullStr FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock
title_full_unstemmed FRQ-CK1 Interaction Underlies Temperature Compensation of the <i>Neurospora</i> Circadian Clock
title_sort frq-ck1 interaction underlies temperature compensation of the <i>neurospora</i> circadian clock
publisher American Society for Microbiology
publishDate 2021
url https://doaj.org/article/c6b4a28c5b1c42538a3b813b53abf087
work_keys_str_mv AT yuehu frqck1interactionunderliestemperaturecompensationoftheineurosporaicircadianclock
AT xiaolanliu frqck1interactionunderliestemperaturecompensationoftheineurosporaicircadianclock
AT qiaojialu frqck1interactionunderliestemperaturecompensationoftheineurosporaicircadianclock
AT yulinyang frqck1interactionunderliestemperaturecompensationoftheineurosporaicircadianclock
AT qunhe frqck1interactionunderliestemperaturecompensationoftheineurosporaicircadianclock
AT yiliu frqck1interactionunderliestemperaturecompensationoftheineurosporaicircadianclock
AT xiaoliu frqck1interactionunderliestemperaturecompensationoftheineurosporaicircadianclock
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