MICRO-RHEOLOGICAL ASSESSMENT OF NEUTROPHIL MECHANICAL PROPERTIES FOLLOWING ADHESION IN A MODEL CAPILLARY

Pai, Anand S.

06 October 2006

No description available.

Micro-rheological

Neutrophil

Mechanical Properties

Adhesion

Micro-rheological behaviour and nonlinear rheology of networks assembled from polysaccharides from the plant cell wall

Vincent, Romaric R. R., Mansel, Brad W., Kramer, Andrea, Kroy, Klaus, Williams, Martin Alexander Keith

02 August 2022

The same fundamental questions that have driven enquiry into cytoskeletal mechanics can be asked of the considerably less-studied, yet arguably just as important, biopolymer matrix in the plant cell wall. In this case, it is well-known that polysaccharides, rather than filamentous and tubular protein assemblies, play a major role in satisfying the mechanical requirements of a successful cell wall, but developing a clear structure–function understanding has been exacerbated by the familiar issue of biological complexity. Herein, in the spirit of the mesoscopic approaches that have proved so illuminating in the study of cytoskeletal networks, the linear microrheological and strain-stiffening responses of biopolymeric networks reconstituted from pectin, a crucial cell wall polysaccharide, are examined. These are found to be well-captured by the glassy worm-like chain (GWLC) model of self-assembled semi-flexible filaments. Strikingly, the nonlinear mechanical response of these pectin networks is found

info:eu-repo/classification/ddc/530

ddc:530