生物
昼夜节律
适应(眼睛)
蓝藻
生物钟
句号(音乐)
联合球菌
黑暗
振荡基因
磷酸酶
进化生物学
动物
时钟
磷酸化
细胞生物学
植物
遗传学
细菌
内分泌学
神经科学
物理
声学
作者
Silin Li,Zengxuan Zhou,Wan Yu,Xudong Jia,Peiliang Wang,Yu Wang,Taisen Zuo,Cheng He,Xiaoting Fang,Shuqi Dong,Jun He,Yilin Yang,Yichen Xu,Shijie Fu,Xujing Wang,Ximing Qin,Qiguang Xie,Xiaodong Xu,Yuwei Zhao,Dan Liang
出处
期刊:The EMBO Journal
[Springer Nature]
日期:2025-04-10
卷期号:44 (10): 3025-3046
被引量:3
标识
DOI:10.1038/s44318-025-00425-0
摘要
Earlier in its history, the Earth used to spin faster than it does today. How ancient organisms adapted to the short day/night cycles during that time remains unclear. In this study we reconstruct and analyse the ancient circadian clock system KaiABC (anKaiABC) of cyanobacteria that existed ~0.95 billion years ago, when the daily light/dark cycle was ~18 h-long. Compared to their contemporary counterparts, anKaiABC proteins had different structures and interactions. The kinase, phosphatase, and adenosine triphosphatase (ATPase) activities of anKaiC were lower, while the anKaiA and anKaiB proteins were less effective at regulating the KaiC/anKaiC phosphorylation status. We provide evidence indicating that the anKaiABC system does not endogenously oscillate, but it can be entrained by an 18 h-long light/dark cycle. A Synechococcus strain expressing ankaiABC genes exhibits better adaptation to 9-h light/9-h dark cycles (LD9:9) that mimic the ancient 18-h day/night cycles, whereas the kaiABC-expressing strain preferentially adapts to the LD12:12 contemporary conditions. These findings suggest that, despite its lack of self-sustaining circadian oscillation, the proto-circadian system may have mediated adaptation of ancient cyanobacteria to the 18 h-long light/dark cycles present 0.95 billion years ago.
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