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Experimental evaluation of thermodynamic cost and speed limit in living cells via information geometry

Ashida, K.; Aoki, K.; Ito, S.

2020-11-30 biophysics
10.1101/2020.11.29.403097 bioRxiv
Show abstract

Chemical reactions are responsible for information processing in living cells, and thermodynamic trade-off relations can explain their accuracy and speed. Its experimental test in living cells had not existed despite its importance because it is hard to justify sample size sufficiency. This paper reports the first experimental test of the thermodynamic trade-off relation, namely the thermodynamic speed limit, in living systems at the single-cell level where the sample size is relatively small. Due to the information-geometric approach, we can demonstrate the thermodynamic speed limit for the extracellular signal-regulated kinase phosphorylation using time-series fluorescence imaging data. Our approach quantifies the intrinsic speed of cell proliferation and can potentially apply other signal transduction pathways to detect their information processing speed. One-Sentence SummaryExperimental measurement of information thermodynamic speed by fluorescence imaging in living cells

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