Atsuko Negishi scite author profile

Hagfish slime threads were recently established as a promising biomimetic model for efforts to produce ecofriendly alternatives to petroleum polymers. Initial attempts to make fibers from solubilized slime thread proteins fell short of achieving the outstanding mechanics of native slime threads. Here we tested the hypothesis that the high strength and toughness of slime threads arise from the ability of constituent intermediate filaments to undergo a stress-induced α-to-β transition. To do this, we made fibers from human vimentin proteins that were first allowed to self-assemble into 10 nm intermediate filaments. Fibers made from assembled vimentin hydrogels underwent an α-to-β transition when strained and exhibited improved mechanical performance. Our data demonstrate that it is possible to make materials from intermediate filament hydrogels and that mimicking the secondary structure of native hagfish slime threads using intermediate filament self-assembly is a promising strategy for improving the mechanical performance of biomimetic protein materials.

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The Production of Fibers and Films from Solubilized Hagfish Slime Thread Proteins

Negishi

Armstrong

Kreplak

et al. 2012

Biomacromolecules

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Hagfish slime threads, which make up the fibrous component of the defensive slime of hagfishes, consist primarily of proteins from the intermediate filament family of proteins and possess impressive mechanical properties that make them attractive biomimetic models. To investigate whether solubilized intermediate filament proteins can be used to make high-performance, environmentally sustainable materials, we cast thin films on the surface of electrolyte buffers using solubilized hagfish slime thread proteins. The films were drawn into fibers, and the tensile properties were measured. Fiber mechanics depended on casting conditions and postspinning processing. Postsecondary drawing resulted in fibers with improved material properties similar to those of regenerated silk fibers. Structural analyses of the fibers revealed increased molecular alignment resulting from the second draw, but no increase in crystallinity. Our findings show promise for intermediate filament proteins as an alternative source for the design and production of high performance protein-based fibers.

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Giant axonal neuropathy alters the structure of keratin intermediate filaments in human hair

Soomro

Alsop

Negishi

et al. 2017

J. R. Soc. Interface.

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Giant axonal neuropathy (GAN) follows an autosomal recessive genetic inheritance and impedes the peripheral and central nervous system due to axonal swellings that are packed with neurofilaments. The patients display a number of phenotypes, including hypotonia, muscle weakness, decreased reflexes, ataxia, seizures, intellectual disability, pale skin and often curled hair. We used X-ray diffraction and tensile testing to determine potential changes to the structure of keratin intermediate filaments (IFs) in the hair of patients with GAN. A statistically significant decrease in the 47 and the 27 Å diffraction signals were observed. Tensile tests determined that the hair was slightly stiffer, stronger and more extensible in GAN patients. These results suggest that the structure of keratin IFs in hair is altered in GAN, and the findings are compatible with an increased positional disorder of the keratin tetramers within the hair fibres.

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Giant Axonal Neuropathy alters the structure of keratin intermediate filaments in human hair_JRSocInterface_TensileData

Soomro¹,

Richard²,

Negishi³

et al. 2017

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Supplementary material from "Giant axonal neuropathy alters the structure of keratin intermediate filaments in human hair"

Soomro¹,

Alsop²,

Negishi³

et al. 2017

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Atsuko Negishi

Self-Assembly Enhances the Strength of Fibers Made from Vimentin Intermediate Filament Proteins

The Production of Fibers and Films from Solubilized Hagfish Slime Thread Proteins

Giant axonal neuropathy alters the structure of keratin intermediate filaments in human hair

Giant Axonal Neuropathy alters the structure of keratin intermediate filaments in human hair_JRSocInterface_TensileData

Supplementary material from "Giant axonal neuropathy alters the structure of keratin intermediate filaments in human hair"

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