Hyo Won Kwak scite author profile

Silk fibroin (SF) nanofiber scaffold containing microalgae Spirulina extract were prepared by electrospinning and the performance and functionality of the scaffold were evaluated. The viscosity and conductivity of the dope solution of Spirulina containing SF were examined for electrospinability and we found that the morphological structure of SF nanofiber is affected by the concentration of Spirulina extract added. The platelet adhesion and coagulation time test confirmed that the Spirulina containing SF nanofiber scaffold had excellent ability to prevent blood clotting or antithrombogenicity that is comparable to heparin. Low cytotoxicity and excellent cell adhesion and proliferation were also observed for Sprulina containing SF nanofiber scaffold by methylthiazolyldiphenyl-tetrazolium bromide assay and confocal fluorescence microscope using fibroblast and human umbilical vein endothelial cells. Based on these results, we believe SF nanofiber scaffold containing Spirulina extract has the potential to be used as tissue engineering scaffold that requires high hemocompatibility.

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Sericin Promotes Fibroin Silk I Stabilization Across a Phase-Separation

Kwak

Shin

et al. 2017

Biomacromolecules

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Natural silk spinning offers several advantages over the synthetic fiber spinning, although the underlying mechanisms of this process are yet to be fully elucidated. Silkworm silks, specifically B. mori, comprise two main proteins: fibroin, which forms the fiber, and sericin, a coextruded coating that acts as a matrix in the resulting nonwoven composite cocoon. To date, most studies have focused on fibroin's self-assembly and gelation, with the influence of sericin during spinning receiving little to no attention. This study investigates sericin's effects on the self-assembly of fibroin via their natural phase-separation. Through changes in sample opacity, FTIR, and XRD, we report that increasing sericin concentration retards the time to gelation and β-sheet formation of fibroin, causing it to adopt a Silk I conformation. Such findings have important implications for both the natural silk spinning process and any future industrial applications, suggesting that sericin may be able to induce long-range conformational and stability control in silk fibroin, while being in a separate phase, a factor that would facilitate long-term storage or silk feedstocks.

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Fabrication of an ultrafine fish gelatin nanofibrous web from an aqueous solution by electrospinning

Kwak

Shin

Lee

et al. 2017

International Journal of Biological Macromolecules

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Surface-modified spherical lignin particles with superior Cr(VI) removal efficiency

Kwak

Lee

2020

Chemosphere

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Hyo Won Kwak

Chemical and physical reinforcement behavior of dialdehyde nanocellulose in PVA composite film: A comparison of nanofiber and nanocrystal

Aquatic polymer-based edible films of fish gelatin crosslinked with alginate dialdehyde having enhanced physicochemical properties

Chemical and physical reinforcement of hydrophilic gelatin film with di-aldehyde nanocellulose

Prevention of cellulose nanofibril agglomeration during dehydration and enhancement of redispersibility by hydrophilic gelatin

Structural characteristics and biological performance of silk fibroin nanofiber containing microalgae spirulina extract

Sericin Promotes Fibroin Silk I Stabilization Across a Phase-Separation

Fabrication of an ultrafine fish gelatin nanofibrous web from an aqueous solution by electrospinning

Surface-modified spherical lignin particles with superior Cr(VI) removal efficiency

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