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1.
ACS Biomater Sci Eng ; 9(2): 978-990, 2023 02 13.
Artigo em Inglês | MEDLINE | ID: mdl-36692450

RESUMO

The fascination with the optical properties of naturally occurring systems has been driven in part by nature's ability to produce a diverse palette of vibrant colors from a relatively small number of common structural motifs. Within this context, some cephalopod species have evolved skin cells called iridophores and leucophores whose constituent ultrastructures reflect light in different ways but are composed of the same high refractive index material─a protein called reflectin. Although such natural optical systems have attracted much research interest, measuring the refractive indices of biomaterial-based structures across multiple different environments and establishing theoretical frameworks for accurately describing the obtained refractive index values has proven challenging. Herein, we employ a synergistic combination of experimental and computational methodologies to systematically map the three-dimensional refractive index distributions of model self-assembled reflectin-based structures both in vivo and in vitro. When considered together, our findings may improve understanding of squid skin cell functionality, augment existing methods for characterizing protein-based optical materials, and expand the utility of emerging holotomographic microscopy techniques.


Assuntos
Decapodiformes , Nanoestruturas , Animais , Decapodiformes/química , Refratometria , Proteínas/química , Materiais Biocompatíveis
2.
ACS Biomater Sci Eng ; 6(3): 1311-1320, 2020 03 09.
Artigo em Inglês | MEDLINE | ID: mdl-33455403

RESUMO

Stem cells have attracted significant attention due to their regenerative capabilities and their potential for the treatment of disease. Consequently, significant research effort has focused on the development of protein- and polypeptide-based materials as stem cell substrates and scaffolds. Here, we explore the ability of reflectin, a cephalopod structural protein, to support the growth of murine neural stem/progenitor cells (mNSPCs). We observe that the binding, growth, and differentiation of mNSPCs on reflectin films is comparable to that on more established protein-based materials. Moreover, we find that heparin selectively inhibits the adhesion of mNSPCs on reflectin, affording spatial control of cell growth and leading to a >30-fold change in cell density on patterned substrates. The described findings highlight the potential utility of reflectin as a stem cell culture material.


Assuntos
Cefalópodes , Células-Tronco Neurais , Animais , Diferenciação Celular , Proliferação de Células , Camundongos , Proteínas
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