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Current Biology : CB
|
February 26, 2026
The free-running property of circadian clocks is needed to tolerate changing photoperiods
Andrew F Schober, Caroline Holmes, Stephanie Palmer, et al.
Nature Communications
|
August 3, 2018
High protein copy number is required to suppress stochasticity in the cyanobacterial circadian clock
Justin Chew, Eugene Leypunskiy, Jenny Lin, et al.
Cell Systems
|
September 30, 2019
Kalman-like Self-Tuned Sensitivity in Biophysical Sensing
Kabir Husain, Weerapat Pittayakanchit, Gopal Pattanayak, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
January 2, 2013
Robust and tunable circadian rhythms from differentially sensitive catalytic domains
Connie Phong, Joseph S Markson, Crystal M Wilhoite, et al.
Elife
|
July 11, 2018
Biophysical clocks face a trade-off between internal and external noise resistance
Weerapat Pittayakanchit, Zhiyue Lu, Justin Chew, et al.
Biorxiv : the Preprint Server for Biology
|
May 7, 2026
The Phenotypic Landscape of a Circadian Clock
Soo Ji Kim, Diane Schnitkey, Bryan Andrews, et al.
Plos Genetics
|
January 1, 2016
Small Rad51 and Dmc1 Complexes Often Co-occupy Both Ends of a Meiotic DNA Double Strand Break
M Scott Brown, Jennifer Grubb, Annie Zhang, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
September 6, 2022
KidA, a multi-PAS domain protein, tunes the period of the cyanobacterial circadian oscillator
Soo Ji Kim, Chris Chi, Gopal Pattanayak, et al.
Lab on a Chip
|
October 1, 2009
A rapid prototyping method for polymer microfluidics with fixed aspect ratio and 3D tapered channels
Andrew W Browne, Michael J Rust, Wooseok Jung, et al.
Elife
|
July 8, 2017
The cyanobacterial circadian clock follows midday in vivo and in vitro
Eugene Leypunskiy, Jenny Lin, Haneul Yoo, et al.
Page
of 6
Search research articles
Search
Showing results (21-30 of 58) with videos related to
Sort By:
Page
of 6
Current Biology : CB
|
February 26, 2026
The free-running property of circadian clocks is needed to tolerate changing photoperiods
Andrew F Schober, Caroline Holmes, Stephanie Palmer, et al.
Nature Communications
|
August 3, 2018
High protein copy number is required to suppress stochasticity in the cyanobacterial circadian clock
Justin Chew, Eugene Leypunskiy, Jenny Lin, et al.
Cell Systems
|
September 30, 2019
Kalman-like Self-Tuned Sensitivity in Biophysical Sensing
Kabir Husain, Weerapat Pittayakanchit, Gopal Pattanayak, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
January 2, 2013
Robust and tunable circadian rhythms from differentially sensitive catalytic domains
Connie Phong, Joseph S Markson, Crystal M Wilhoite, et al.
Elife
|
July 11, 2018
Biophysical clocks face a trade-off between internal and external noise resistance
Weerapat Pittayakanchit, Zhiyue Lu, Justin Chew, et al.
Biorxiv : the Preprint Server for Biology
|
May 7, 2026
The Phenotypic Landscape of a Circadian Clock
Soo Ji Kim, Diane Schnitkey, Bryan Andrews, et al.
Plos Genetics
|
January 1, 2016
Small Rad51 and Dmc1 Complexes Often Co-occupy Both Ends of a Meiotic DNA Double Strand Break
M Scott Brown, Jennifer Grubb, Annie Zhang, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
September 6, 2022
KidA, a multi-PAS domain protein, tunes the period of the cyanobacterial circadian oscillator
Soo Ji Kim, Chris Chi, Gopal Pattanayak, et al.
Lab on a Chip
|
October 1, 2009
A rapid prototyping method for polymer microfluidics with fixed aspect ratio and 3D tapered channels
Andrew W Browne, Michael J Rust, Wooseok Jung, et al.
Elife
|
July 8, 2017
The cyanobacterial circadian clock follows midday in vivo and in vitro
Eugene Leypunskiy, Jenny Lin, Haneul Yoo, et al.
Page
of 6