PNAS:我们的昼夜节律是如何既强大又灵活的
Ebiotrade,
【字体: 大 中 小 】 时间:2022年02月24日 来源:Institute for Basic Science 编辑推荐: 数学建模和实验相结合,确定了果蝇主时钟和从时钟神经元的分子钟结构差异。这解决了生物钟(~24小时)如何表现出鲁棒性(强节律)和可…
【字体: 大 中 小 】 时间:2022年02月24日 来源:Institute for Basic Science 编辑推荐: 数学建模和实验相结合,确定了果蝇主时钟和从时钟神经元的分子钟结构差异。这解决了生物钟(~24小时)如何表现出鲁棒性(强节律)和可…
Korea Advanced Institute of Science and Technology Study reveals that master and slave oscillators function via different…
From tiny fruit flies to human beings, all animals on Earth maintain their daily rhythms based on their internal circadian clock.
From tiny fruit flies to human beings, all animals on Earth maintain their daily rhythms based on their internal circadian clock.
From tiny fruit flies to human beings, all animals on Earth maintain their daily rhythms based on their internal circadian clock.
From tiny fruit flies to human beings, all animals on Earth maintain their daily rhythms based on their internal circadian clock.