Living liquid crystals

Significance We propose a class of active matter, the living liquid crystal (LLC), representing motile rod-shaped bacteria placed in water-based nontoxic liquid crystal. Long-range orientational order of the liquid crystal and the swimming activity of bacteria demonstrate a strong coupling that dramatically alters individual and collective bacterial dynamics. For example, swimming bacteria perturb the orientational order of the liquid crystal or even cause its local melting, making the flagella motion optically visible. Second, self-organized textures emerge from the initial uniform LLC alignment with a characteristic length controlled by a balance between bacteria activity and anisotropic viscoelasticity of liquid crystal. Third, the local liquid crystal orientation controls the direction of motion of bacteria. LLC can lead to valuable biosensoring and biomedical applications. Collective motion of self-propelled organisms or synthetic particles, often termed “active fluid,” has attracted enormous attention in the broad scientific community because of its fundamentally nonequilibrium nature. Energy input and interactions among the moving units and the medium lead to complex dynamics. Here, we introduce a class of active matter––living liquid crystals (LLCs)––that combines living swimming bacteria with a lyotropic liquid crystal. The physical properties of LLCs can be controlled by the amount of oxygen available to bacteria, by concentration of ingredients, or by temperature. Our studies reveal a wealth of intriguing dynamic phenomena, caused by the coupling between the activity-triggered flow and long-range orientational order of the medium. Among these are (i) nonlinear trajectories of bacterial motion guided by nonuniform director, (ii) local melting of the liquid crystal caused by the bacteria-produced shear flows, (iii) activity-triggered transition from a nonflowing uniform state into a flowing one-dimensional periodic pattern and its evolution into a turbulent array of topological defects, and (iv) birefringence-enabled visualization of microflow generated by the nanometers-thick bacterial flagella. Unlike their isotropic counterpart, the LLCs show collective dynamic effects at very low volume fraction of bacteria, on the order of 0.2%. Our work suggests an unorthodox design concept to control and manipulate the dynamic behavior of soft active matter and opens the door for potential biosensing and biomedical applications.

• Publication year

  2013

• Venue

  Proceedings of the National Academy of Sciences of the United States of America

• Publication date

  2013-12-18

• Fields of study

  Biology, Materials Science, Physics, Chemistry, Medicine

• Identifiers
  DOI 10.1073/pnas.1321926111arXiv 1312.5359PMID 24474746PMCID PMC3910648
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• Local liquid-crystal orientation guides bacterial trajectories, producing nonlinear motion in nonuniform alignment fields.

  Confidence 0.93

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• Uniformly aligned living liquid crystals develop self-organized textures whose characteristic length is set by a balance between bacterial activity and anisotropic viscoelasticity.

  Confidence 0.95

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• Bacterial swimming perturbs liquid-crystal orientational order and can locally melt the host, making flagella motion optically visible.

  Confidence 0.96

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• Combining motile rod-shaped bacteria with a lyotropic liquid crystal creates living liquid crystals, an active-matter system with strongly coupled bacterial motion and host alignment.

  Confidence 0.98

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review

• anisotropic viscoelasticity

  material property

  Direction-dependent viscous and elastic response of the liquid-crystal host.

  Aliases: anisotropic viscoelastic response

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• flagella motion

  biological process

  The propulsion generated by bacterial flagella.

  Aliases: flagellar motion

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• living liquid crystal

  active matter

  A composite active-matter system made of motile bacteria dispersed in a lyotropic liquid crystal.

  Aliases: LLC

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• lyotropic liquid crystal

  material

  A water-based liquid-crystal medium whose alignment depends on concentration and temperature.

  Aliases: liquid crystal host

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• orientational order

  property

  The long-range alignment of the liquid-crystal molecules described by a director.

  Aliases: alignment, director order

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• rod-shaped bacteria

  organism

  Motile bacilli used as the living active component in the liquid-crystal suspension.

  Aliases: motile rod-shaped bacteria, bacteria

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review
• self-organized textures

  pattern

  Spontaneously emerging spatial patterns in the initially uniformly aligned LLC.

  Aliases: textures, periodic pattern

  박진우 (dztg5apj7m) extractionB (s683577b42) reviewAK (4715169a40) review

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