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Mechanotransduction in Prokaryotes: A Possible Mechanism of Spaceflight Adaptation

Patricia Fajardo-Cavazos, Wayne L. Nicholson

2021Life25 citationsDOIOpen Access PDF

Abstract

Our understanding of the mechanisms of microgravity perception and response in prokaryotes (Bacteria and Archaea) lag behind those which have been elucidated in eukaryotic organisms. In this hypothesis paper, we: (i) review how eukaryotic cells sense and respond to microgravity using various pathways responsive to unloading of mechanical stress; (ii) we observe that prokaryotic cells possess many structures analogous to mechanosensitive structures in eukaryotes; (iii) we review current evidence indicating that prokaryotes also possess active mechanosensing and mechanotransduction mechanisms; and (iv) we propose a complete mechanotransduction model including mechanisms by which mechanical signals may be transduced to the gene expression apparatus through alterations in bacterial nucleoid architecture, DNA supercoiling, and epigenetic pathways.

Topics & Concepts

MechanotransductionMechanosensitive channelsBiologyNucleoidMechanism (biology)SpaceflightCell biologyDNA supercoilEpigeneticsHistoneChromatinGeneticsGeneDNA replicationEpistemologyPhilosophyIon channelEscherichia coliReceptorEngineeringAerospace engineeringSpaceflight effects on biologyPlanetary Science and ExplorationSpace Science and Extraterrestrial Life