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- Revealing Circadian Mechanisms of Integration and Resilience by Visualizing Clock Proteins Working in Real Time
- Absolute Slowness Encoded in the Circadian Clock Protein Kaic J. Abe
- Tuning the Circadian Period of Cyanobacteria up to 6.6 Days by the Single Amino Acid Substitutions in Kaic
- Insight Into Cyanobacterial Circadian Timing from Structural Details of the Kaib–Kaic Interaction
- ATP Hydrolysis by Kaic Promotes Its Kaia Binding in the Cyanobacterial Circadian Clock System
- UNIVERSITY of CALIFORNIA, MERCED Molecular Dynamics
- MAGNESIUM REGULATES the CIRCADIAN OSCILLATOR in CYANOBACTERIA 851655Research-Article2019
- Development and Optimization of Expression, Purification, And
- Structure, Function, and Mechanism of the Core Circadian Clock In
- Visualizing a Circadian Clock Protein: Crystal Structure of Kaic and Functional Insights
- The Molecular Clockwork of a Protein-Based Circadian Oscillator
- Evolution of Kaia, a Key Circadian Gene of Cyanobacteria Volodymyr Dvornyk1,4* & Qiming Mei2,3,4
- Circadian Clock Protein Kaic Forms ATP-Dependent Hexameric Rings and Binds DNA
- Kaia-Stimulated Kaic Phosphorylation in Circadian Timing Loops in Cyanobacteria
- In Vitro Regulation of Circadian Phosphorylation Rhythm of Cyanobacterial Clock Protein Kaic by Kaia and Kaib
- Orderly Wheels of the Cyanobacterial Clock
- The Day/Night Switch in Kaic, a Central Oscillator Component of the Circadian Clock of Cyanobacteria
- Circadian Clock Protein Kaic Forms ATP-Dependent Hexameric Rings and Binds DNA