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Scientific Reports
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August 29, 2019
Identification of pathways that regulate circadian rhythms using a larval zebrafish small molecule screen
Eric A Mosser, Cindy N Chiu, T Katherine Tamai, et al.
The Plant Cell
|
April 25, 2013
BRANCHED1 interacts with FLOWERING LOCUS T to repress the floral transition of the axillary meristems in Arabidopsis
Masaki Niwa, Yasufumi Daimon, Ken-ichi Kurotani, et al.
Plant Direct
|
June 28, 2019
Functional dissection of the <i>ARGONAUTE7</i> promoter
J Steen Hoyer, Jose L Pruneda-Paz, Ghislain Breton, et al.
Cell
|
May 23, 2002
Coordinated transcription of key pathways in the mouse by the circadian clock
Satchidananda Panda, Marina P Antoch, Brooke H Miller, et al.
Angewandte Chemie (International Ed. in English)
|
May 12, 2015
C-H activation generates period-shortening molecules that target cryptochrome in the mammalian circadian clock
Tsuyoshi Oshima, Iori Yamanaka, Anupriya Kumar, et al.
Neuron
|
August 18, 2004
A functional genomics strategy reveals Rora as a component of the mammalian circadian clock
Trey K Sato, Satchidananda Panda, Loren J Miraglia, et al.
Oncogene
|
April 13, 2021
Clocking cancer: the circadian clock as a target in cancer therapy
Francesca Battaglin, Priscilla Chan, Yuanzhong Pan, et al.
Plant Physiology
|
May 24, 2005
Rapid array mapping of circadian clock and developmental mutations in Arabidopsis
Samuel P Hazen, Justin O Borevitz, Frank G Harmon, et al.
Nature Genetics
|
February 14, 2006
Feedback repression is required for mammalian circadian clock function
Trey K Sato, Rikuhiro G Yamada, Hideki Ukai, et al.
The New Phytologist
|
March 1, 2020
Changes in ambient temperature are the prevailing cue in determining Brachypodium distachyon diurnal gene regulation
Kirk J-M MacKinnon, Benjamin J Cole, Chang Yu, et al.
Page
of 17
Search research articles
Search
Showing results (121-130 of 166) with videos related to
Sort By:
Page
of 17
Scientific Reports
|
August 29, 2019
Identification of pathways that regulate circadian rhythms using a larval zebrafish small molecule screen
Eric A Mosser, Cindy N Chiu, T Katherine Tamai, et al.
The Plant Cell
|
April 25, 2013
BRANCHED1 interacts with FLOWERING LOCUS T to repress the floral transition of the axillary meristems in Arabidopsis
Masaki Niwa, Yasufumi Daimon, Ken-ichi Kurotani, et al.
Plant Direct
|
June 28, 2019
Functional dissection of the <i>ARGONAUTE7</i> promoter
J Steen Hoyer, Jose L Pruneda-Paz, Ghislain Breton, et al.
Cell
|
May 23, 2002
Coordinated transcription of key pathways in the mouse by the circadian clock
Satchidananda Panda, Marina P Antoch, Brooke H Miller, et al.
Angewandte Chemie (International Ed. in English)
|
May 12, 2015
C-H activation generates period-shortening molecules that target cryptochrome in the mammalian circadian clock
Tsuyoshi Oshima, Iori Yamanaka, Anupriya Kumar, et al.
Neuron
|
August 18, 2004
A functional genomics strategy reveals Rora as a component of the mammalian circadian clock
Trey K Sato, Satchidananda Panda, Loren J Miraglia, et al.
Oncogene
|
April 13, 2021
Clocking cancer: the circadian clock as a target in cancer therapy
Francesca Battaglin, Priscilla Chan, Yuanzhong Pan, et al.
Plant Physiology
|
May 24, 2005
Rapid array mapping of circadian clock and developmental mutations in Arabidopsis
Samuel P Hazen, Justin O Borevitz, Frank G Harmon, et al.
Nature Genetics
|
February 14, 2006
Feedback repression is required for mammalian circadian clock function
Trey K Sato, Rikuhiro G Yamada, Hideki Ukai, et al.
The New Phytologist
|
March 1, 2020
Changes in ambient temperature are the prevailing cue in determining Brachypodium distachyon diurnal gene regulation
Kirk J-M MacKinnon, Benjamin J Cole, Chang Yu, et al.
Page
of 17