Yasuko Yanagida scite author profile

A novel strategy for designing and synthesizing extremely thermostable biologically active proteins is proposed. The design concept is based on combining a rigid and extremely hydrophobic peptide unit with a biologically active peptide unit. The cell adhesive peptide sequence, Arg-Gly-Asp (RGD), as a functional peptide unit was incorporated into the elastin-based rigid polyhexapeptide, whose repeating unit is Ala-Pro-Gly-Val-Gly-Val (APGVGV). The designed fusion gene was expressed in E. coli, and the resulting protein, designated ER4, was purified with affinity chromatography. The ER4-coated cell culture plate showed sufficient cell adhesive activity through the RGD sequence on the surface of ER4. The thermostability of ER4 was demonstrated by estimating the remaining cell adhesive activity after autoclaving at 120 degrees C for 20 min, and it retained over 90% of cell adhesive activity compared with native ER4.

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Reflectometric detection of influenza virus in human saliva using nanoimprint lithography-based flexible two-dimensional photonic crystal biosensor

Endo

Ozawa²,

Okuda³

et al. 2010

Sensors and Actuators B: Chemical

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Assembling of engineered IgG-binding protein on gold surface for highly oriented antibody immobilization

Kanno

Yanagida

Haruyama

et al. 2000

Journal of Biotechnology

121

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Yasuko Yanagida

Colorimetric detection of volatile organic compounds using a colloidal crystal-based chemical sensor for environmental applications

Stimuli-responsive hydrogel–silver nanoparticles composite for development of localized surface plasmon resonance-based optical biosensor

Design and Gene Engineering Synthesis of an Extremely Thermostable Protein with Biological Activity

Reflectometric detection of influenza virus in human saliva using nanoimprint lithography-based flexible two-dimensional photonic crystal biosensor

Assembling of engineered IgG-binding protein on gold surface for highly oriented antibody immobilization

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