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KaiA
Computational Modeling of Protein Interactions and Phosphoform Kinetics in the Kaiabc Cyanobacterial Circadian Clock
The Kaia Protein of the Cyanobacterial Circadian Oscillator Is Modulated by a Redox-Active Cofactor
Cooperative Kaia–Kaib–Kaic Interactions Affect Kaib/Sasa Competition in the Circadian Clock of Cyanobacteria
Kaib–Kaic Interactions Affect Kaib/Sasa Competition in the Circadian Clock of Cyanobacteria
Visualizing a Circadian Clock Protein: Crystal Structure of Kaic and Functional Insights
Structure, Function, and Mechanism of the Core Circadian Clock in Cyanobacteria
A Dynamic Interaction Process Between Kaia and Kaic Is Critical To
Kaic Intersubunit Communication Facilitates Robustness of Circadian Rhythms in Cyanobacteria
Cika, an Input Pathway Component, Senses the Oxidized Quinone Signal to Generate Phase Delays in the Cyanobacterial Circadian Clock
NMR Structure of the Kaic-Interacting C-Terminal Domain of Kaia, a Circadian Clock Protein: Implications for Kaia–Kaic Interaction
Japan Academy Prize To: Takao KONDO Designated Professor
Intermolecular Associations Determine the Dynamics of the Circadian Kaiabc Oscillator
Light-Driven Changes in Energy Metabolism Directly Entrain the Cyanobacterial Circadian Oscillator Michael J
Revealing Circadian Mechanisms of Integration and Resilience by Visualizing Clock Proteins Working in Real Time
Origin and Evolution of Circadian Clock Genes in Prokaryotes
UNIVERSITY of CALIFORNIA, MERCED Molecular Dynamics
MAGNESIUM REGULATES the CIRCADIAN OSCILLATOR in CYANOBACTERIA 851655Research-Article2019
Structure, Function, and Mechanism of the Core Circadian Clock In
Top View
The Kaia Protein of the Cyanobacterial Circadian Oscillator Is Modulated by a Redox-Active Cofactor
Profile of Susan S. Golden
Genome-Wide Fitness Assessment During Diurnal Growth Reveals an Expanded Role of the Cyanobacterial Circadian Clock Protein Kaia
Visualizing a Biological Clockwork's Cogs
Evolution of Kaia, a Key Circadian Gene of Cyanobacteria Volodymyr Dvornyk1,4* & Qiming Mei2,3,4
Kaia-Stimulated Kaic Phosphorylation in Circadian Timing Loops in Cyanobacteria
Orderly Wheels of the Cyanobacterial Clock
Loop−Loop Interactions Regulate Kaia-Stimulated Kaic
Damped Circadian Oscillation in the Absence of Kaia in Synechococcus ✉ Naohiro Kawamoto 1, Hiroshi Ito 2, Isao T
The Circadian Clock—A Molecular Tool for Survival in Cyanobacteria
Dual Kaic-Based Oscillations Constitute the Circadian System of Cyanobacteria
Functional Genomics of the Unicellular
NMR Structure of the Kaic-Interacting C-Terminal Domain of Kaia, a Circadian Clock Protein: Implications for Kaia–Kaic Interaction