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Reconstitution of a minimal motility system based on <i>Spiroplasma</i> swimming by two bacterial actins in a synthetic minimal bacterium

Hana Kiyama, Shigeyuki Kakizawa, Yuya Sasajima, Yuhei O. Tahara, Makoto Miyata

2022Science Advances31 citationsDOIOpen Access PDF

Abstract

Motility is one of the most important features of life, but its evolutionary origin remains unknown. In this study, we focused on Spiroplasma , commensal, or parasitic bacteria. They swim by switching the helicity of a ribbon-like cytoskeleton that comprises six proteins, each of which evolved from a nucleosidase and bacterial actin called MreB. We expressed these proteins in a synthetic, nonmotile minimal bacterium, JCVI-syn3B, whose reduced genome was computer-designed and chemically synthesized. The synthetic bacterium exhibited swimming motility with features characteristic of Spiroplasma swimming. Moreover, combinations of Spiroplasma MreB4-MreB5 and MreB1-MreB5 produced a helical cell shape and swimming. These results suggest that the swimming originated from the differentiation and coupling of bacterial actins, and we obtained a minimal system for motility of the synthetic bacterium.

Topics & Concepts

MreBMotilityGliding motilitySpiroplasmaBacteriaBiologyMollicutesActinCytoskeletonCell biologyMicrobiologyBiochemistryGeneticsCellBacteriophages and microbial interactionsGenomics and Phylogenetic StudiesProtist diversity and phylogeny