A self-driven phase transition drives Myxococcus xanthus fruiting body formation

Adam Patch; David Yllanes; Fatmagul Bahar; Guannan Liu; Joshua W. Shaevitz; M. Cristina Marchetti; Roy D. Welch; Shashi Thutupalli

arxiv: 1709.06012 · v2 · pith:SZQ3I7RKnew · submitted 2017-09-18 · ⚛️ physics.bio-ph · cond-mat.soft· q-bio.CB

A self-driven phase transition drives Myxococcus xanthus fruiting body formation

Guannan Liu , Adam Patch , Fatmagul Bahar , David Yllanes , Roy D. Welch , M. Cristina Marchetti , Shashi Thutupalli , Joshua W. Shaevitz This is my paper

classification ⚛️ physics.bio-ph cond-mat.softq-bio.CB

keywords cellphasexanthusbodyformationfruitingmotilitymyxococcus

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Combining high-resolution single cell tracking experiments with numerical simulations, we show that starvation-induced fruiting body (FB) formation in Myxococcus xanthus is a phase separation driven by cells that tune their motility over time. The phase separation can be understood in terms of cell density and a dimensionless Peclet number that captures cell motility through speed and reversal frequency. Our work suggests that M. xanthus take advantage of a self-driven non-equilibrium phase transition that can be controlled at the single cell level.

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A self-driven phase transition drives Myxococcus xanthus fruiting body formation

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