Cellular Ethological Dynamics in Diorama Environments

Yukinori Nishigami; Itsuki Kunita; Katsuhiko Sato; Toshiyuki Nakagaki

doi:10.7566/JPSJ.92.121009

Cellular Ethological Dynamics in Diorama Environments

Yukinori Nishigami, Itsuki Kunita, Katsuhiko Sato, Toshiyuki Nakagaki^*

^*Corresponding author for this work

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

How smart can cells behave under complicated environmental conditions in their natural habitat? Further, what physical mechanism brings about such smart behaviors? These two questions are closely related to each other and are to be studied in both cell biology and physics. Here, we focus on behavioral smartness and variability observed mainly in unicellular eukaryotic organisms. We review a few typical cases in which cell behavior seemed smart in a complex experimental condition and=or variable in a similar experimental condition. On each of these behaviors, a possible mechanism was considered by formulating and analyzing the model equations of cell motion. By revisiting the thought that cells might be simple machines that could repeat the same response to the same stimuli and conditions, we threw some light on the plausible mechanisms for behavioral smartness and variability in cellular movements.

Original language	English
Article number	121009
Journal	Journal of the Physical Society of Japan
Volume	92
Issue number	12
DOIs	https://doi.org/10.7566/JPSJ.92.121009
State	Published - 2023

ASJC Scopus subject areas

General Physics and Astronomy

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10.7566/JPSJ.92.121009

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title = "Cellular Ethological Dynamics in Diorama Environments",

abstract = "How smart can cells behave under complicated environmental conditions in their natural habitat? Further, what physical mechanism brings about such smart behaviors? These two questions are closely related to each other and are to be studied in both cell biology and physics. Here, we focus on behavioral smartness and variability observed mainly in unicellular eukaryotic organisms. We review a few typical cases in which cell behavior seemed smart in a complex experimental condition and=or variable in a similar experimental condition. On each of these behaviors, a possible mechanism was considered by formulating and analyzing the model equations of cell motion. By revisiting the thought that cells might be simple machines that could repeat the same response to the same stimuli and conditions, we threw some light on the plausible mechanisms for behavioral smartness and variability in cellular movements.",

author = "Yukinori Nishigami and Itsuki Kunita and Katsuhiko Sato and Toshiyuki Nakagaki",

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T1 - Cellular Ethological Dynamics in Diorama Environments

AU - Nishigami, Yukinori

AU - Kunita, Itsuki

AU - Sato, Katsuhiko

AU - Nakagaki, Toshiyuki

PY - 2023

Y1 - 2023

N2 - How smart can cells behave under complicated environmental conditions in their natural habitat? Further, what physical mechanism brings about such smart behaviors? These two questions are closely related to each other and are to be studied in both cell biology and physics. Here, we focus on behavioral smartness and variability observed mainly in unicellular eukaryotic organisms. We review a few typical cases in which cell behavior seemed smart in a complex experimental condition and=or variable in a similar experimental condition. On each of these behaviors, a possible mechanism was considered by formulating and analyzing the model equations of cell motion. By revisiting the thought that cells might be simple machines that could repeat the same response to the same stimuli and conditions, we threw some light on the plausible mechanisms for behavioral smartness and variability in cellular movements.

AB - How smart can cells behave under complicated environmental conditions in their natural habitat? Further, what physical mechanism brings about such smart behaviors? These two questions are closely related to each other and are to be studied in both cell biology and physics. Here, we focus on behavioral smartness and variability observed mainly in unicellular eukaryotic organisms. We review a few typical cases in which cell behavior seemed smart in a complex experimental condition and=or variable in a similar experimental condition. On each of these behaviors, a possible mechanism was considered by formulating and analyzing the model equations of cell motion. By revisiting the thought that cells might be simple machines that could repeat the same response to the same stimuli and conditions, we threw some light on the plausible mechanisms for behavioral smartness and variability in cellular movements.

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Cellular Ethological Dynamics in Diorama Environments

Abstract

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