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Published March 22, 2023 | Supplemental Material + Submitted
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Dynamical states of self-organized waves in a giant single-celled organism feeding on light

Abstract

Living systems often appear to act upon potential outcomes, exhibiting anticipatory behavior. Here we studyCaulerpa brachypus, a marine green alga consisting of differentiated organs resembling leaves, stems and roots. While an individual can exceed a meter in size, it is a single multinucleated giant cell. Our experimental work reveals self-organized waves of greenness — chloroplasts — that propagate throughout the alga and anticipate the day-night light cycle. Using dynamical systems analysis we show that these waves are coupled to a self-sustained oscillator, and demonstrate their entrainment to light. Under constant conditions we find that light intensity affects the natural period and can drive transition to temporal disorder. We find also that the rate of development of organs, and their shape and size, depend on light intensity and its temporal distribution. The findings suggest the waves and their environmental control as a link among biological oscillators, metabolism and morphogenesis.

Additional Information

The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under a CC-BY 4.0 International license. The laboratory of E.M.M. is supported by the Howard Hughes Medical Institute. E.A. has been awarded the Zuckerman Israeli Postdoctoral Scholar, Zuckerman STEM Lead-ership Program, and the Biology and Biological Engineering Divisional Fellowship, Caltech. T.J.B.L. has been awarded the Summer Undergraduate Research Fellowship (SURF), Caltech. Author contributions Conceptualization: E.M.M proposed studying morphogenesis in Caulerpa; E.A. designed the study; Methodology: E.A. designed the experimental system and analysis; Investigation: E.A. performed the measurements; E.A. and T.J.B.L. performed computational analysis; Visualization: E.A. and T.J.B.L.; Funding acquisition: E.M.M.; Writing – original draft: E.A.; Writing – review & editing: E.A. and E.M.M.; All authors discussed and commented on the manuscript. Data and materials availability. Analyzed data are available in the main text. Raw data, code and materials are available upon request from E.A. and E.M.M. All programming and computer aided analysis has been done using open-source projects, primarily tools from the Scientific Python ecosystem. Distributed image processing was conducted in the Resnick High Performance Computing Center, a facility supported by Resnick Sustainability Institute at the California Institute of Technology. The authors have declared no competing interest.

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Submitted - 2023.02.22.529174v1.full.pdf

Supplemental Material - media-1.mp4

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Additional details

Created:
August 20, 2023
Modified:
December 22, 2023