Exchange of ADP with ATP in the CII ATPase domain promotes autophosphorylation of cyanobacterial clock protein KaiC

Autor:	Takao Kondo, Erika Ochiai, Taeko Nishiwaki-Ohkawa, Yohko Kitayama
Rok vydání:	2014
Předmět:	Adenosine Triphosphatases Multidisciplinary Circadian Rhythm Signaling Peptides and Proteins ATPase Autophosphorylation Biological Sciences Biology Cyanobacteria Substrate Specificity Adenosine Diphosphate Dephosphorylation chemistry.chemical_compound Adenosine diphosphate Adenosine Triphosphate Bacterial Proteins chemistry Biochemistry KaiC KaiA Biophysics biology.protein Phosphorylation Adenosine triphosphate
Zdroj:	Proceedings of the National Academy of Sciences. 111:4455-4460
ISSN:	1091-6490 0027-8424
DOI:	10.1073/pnas.1319353111
Popis:	The cyanobacterial circadian oscillator can be reconstituted in vitro. In the presence of KaiA and KaiB, the phosphorylation state of KaiC oscillates with a periodicity of ∼24 h. KaiC is a hexameric P-loop ATPase with autophosphorylation and autodephosphorylation activities. Recently, we found that dephosphorylation of KaiC occurs via reversal of the phosphorylation reaction: a phosphate group attached to Ser431/Thr432 is transferred to KaiC-bound ADP to generate ATP, which is subsequently hydrolyzed. This unusual reaction mechanism suggests that the KaiC phosphorylation rhythm is sustained by periodic shifts in the equilibrium of the reversible autophosphorylation reaction, the molecular basis of which has never been elucidated. Because KaiC-bound ATP and ADP serve as substrates for the forward and reverse reactions, respectively, we investigated the regulation of the nucleotide-bound state of KaiC. In the absence of KaiA, the condition in which the reverse reaction proceeds, KaiC favored the ADP-bound state. KaiA increased the ratio of ATP to total KaiC-bound nucleotides by facilitating the release of bound ADP and the incorporation of exogenous ATP, allowing the forward reaction to proceed. When both KaiA and KaiB were present, the ratio of ATP to total bound nucleotides exhibited a circadian rhythm, whose phase was advanced by several hours relative to that of the phosphorylation rhythm. Based on these findings, we propose that the direction of the reversible autophosphorylation reaction is regulated by KaiA and KaiB at the level of substrate availability and that this regulation sustains the oscillation of the phosphorylation state of KaiC.
Databáze:	OpenAIRE
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