4.2 Article

MicroMotility: State of the art, recent accomplishments and perspectives on the mathematical modeling of bio-motility at microscopic scales

Journal

MATHEMATICS IN ENGINEERING
Volume 2, Issue 2, Pages 230-252

Publisher

AMER INST MATHEMATICAL SCIENCES-AIMS
DOI: 10.3934/mine.2020011

Keywords

cell motility; unicellular swimmers; adhesive locomotion; active matter; knotted DNA; unjamming transition; cell sheet folding; topological defects

Funding

  1. European Research Council [AdG-340685]
  2. Regione Lombardia
  3. CARIPLO foundation [2016-0998]
  4. NIH [5R01GM084227]
  5. NSF [1706571]
  6. Directorate For Engineering
  7. Div Of Chem, Bioeng, Env, & Transp Sys [1706571] Funding Source: National Science Foundation

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Mathematical modeling and quantitative study of biological motility (in particular, of motility at microscopic scales) is producing new biophysical insight and is offering opportunities for new discoveries at the level of both fundamental science and technology. These range from the explanation of how complex behavior at the level of a single organism emerges from body architecture, to the understanding of collective phenomena in groups of organisms and tissues, and of how these forms of swarm intelligence can be controlled and harnessed in engineering applications, to the elucidation of processes of fundamental biological relevance at the cellular and sub-cellular level. In this paper, some of the most exciting new developments in the fields of locomotion of unicellular organisms, of soft adhesive locomotion across scales, of the study of pore translocation properties of knotted DNA, of the development of synthetic active solid sheets, of the mechanics of the unjamming transition in dense cell collectives, of the mechanics of cell sheet folding in volvocalean algae, and of the self-propulsion of topological defects in active matter are discussed. For each of these topics, we provide a brief state of the art, an example of recent achievements, and some directions for future research.

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