N. P. Mandal scite author profile

Bombyx mori (B. mori) silk sericin is a protein with features desirable as a biomaterial, such as increased hydrophilicity and biodegradation, as well as resistance to oxidation, bacteria, and ultraviolet light. In contrast to other widely studied B. mori silk proteins such as fibroin, sericin is still unexplored as a building block for fabricating biomaterial, and thus a facile technique of processing it into a material is needed. Here, electrospinning technology was used to fabricate it into biomaterials from two forms of B. mori silk sericin with different molecular weights, one is a low (12.0 kDa) molecular sericin (LS) form and another is a high (66.0 kDa) molecular weight sericin (HS) form. Circular dichroism (CD) spectra showed that LS in hexafluoroacetone (HFA) solvent adopted a predominantly random coil conformation, whereas HS tended to form a β-sheet structure along with a large content of random coils. In addition, LS and HS in HFA solvent were found to form cylinder-like smaller nanoparticles and larger irregular aggregates before electrospinning, respectively. As a result, biomaterials based on microparticles and nanofibers were successfully fabricated by electrospinning of LS and HS dissolved in HFA, respectively. The cell viability and differentiation assay indicated that nanofibers and microparticles improved cell adhesion, growth, and differentiation, proving that the scaffolds electrospun from sericin are biocompatible regardless of its molecular weight. The microparticles, not common in electrospinning of silk proteins reported previously, were found to promote the osteogenic differentiation of mesenchymal stem cells in comparison to the nanofibers. This study suggested that molecular weight of sericin mediates its secondary structure and assembly structure, which in turn leads to a control of final morphology of the electrospun materials. The microparticles and nanofibers of sericin can be potentially used as building blocks for fabricating the scaffolds for tissue engineering.

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Mineralization and Biocompatibility of Antheraea pernyi (A. pernyi) Silk Sericin Film for Potential Bone Tissue Engineering

Yang

Mandal

Shuai

et al. 2014

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This study aimed to investigate the mineralization of Antheraea pernyi (A. pernyi) silk sericin. Mineralization of A. pernyi sericin was performed by alternative soaking in calcium and phosphate. The inhibition of precipitation of calcium carbonate and von Kossa staining on A. pernyi sericin were tested, and the corresponding results prove that A. pernyi sericin has Ca binding activity. Scanning electron microscope (SEM) observation shows that spherical crystals could be nucleated on the A. pernyi sericin film. These crystals were confirmed to be hydroxyapatite according to FT-IR and XRD spectra, indicating that A. pernyi sericin is capable of mineralization. In addition, cell adhesion and growth activity assay demonstrate that A. pernyi sericin shows excellent biocompatibility for the growth of MG-63 cells.

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Improved stability of nanocrystalline porous silicon after coating with a polymer

Mandal

Sharma

Agarwal

2006

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The effect of light soaking (LS) on nanocrystalline porous silicon (nc-Si) is found to depend on the ambient conditions. Light soaking in air decreases the photoluminescence (PL) intensity and increases the number of dangling bond density measured by electron spin resonance (ESR) monotonically as the exposure time is increased. In vacuum, however, short light exposures increase the PL intensity and decrease the ESR signal, but longer exposures have the opposite effect. Thus PL intensity has a maximum as a function of exposure time. The temperature dependence of LS in vacuum is measured at 300, 325, and 350K. We found that the maximum PL intensity occurs at smaller exposure times as the temperature is increased. These results are explained in terms of two kinds of photostructural changes having opposite LS effects on the PL. Coating nc-Si with a thin layer of polystyrene stabilizes PL against light soaking as well as water vapor, without affecting the PL intensity significantly. Modified bonding configurations at the nc-Si/polystyrene interface, as observed by Fourier transform infrared, seem responsible for the improved stability.

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Nucleation of Hydroxyapatite on Antheraea pernyi (A. pernyi) Silk Fibroin Film

Yang

Shuai

Zhou

et al. 2014

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Antheraea pernyi (A. pernyi) silk fibroin, which is spun from a wild silkworm, has increasingly attracted interest in the field of tissue engineering. The aim of this study was to investigate the nucleation of hydroxyapatite (HAp) on A. pernyi fibroin film. Von Kossa staining proved that A. pernyi fibroin had Ca binding activity. The A. pernyi fibroin film was mineralized with HAp crystals by alternative soaking in calcium and phosphate solutions. Spherical crystals were nucleated on the A. pernyi fibroin film according to scanning electron microscope imaging results. The FT-IR and X-ray diffraction spectra confirmed that these spherical crystals were HAp. The results of in vitro cell culture using MG-63 cells demonstrated that the mineralized A. pernyi fibroin film showed excellent cytocompatibility and sound improvement of the MG-63 cell viability.

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Mandal

Agarwal

2003

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N. P. Mandal

Tuning Molecular Weights of Bombyx mori (B. mori) Silk Sericin to Modify Its Assembly Structures and Materials Formation

Mineralization and Biocompatibility of Antheraea pernyi (A. pernyi) Silk Sericin Film for Potential Bone Tissue Engineering

Improved stability of nanocrystalline porous silicon after coating with a polymer

Nucleation of Hydroxyapatite on Antheraea pernyi (A. pernyi) Silk Fibroin Film

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