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1.
Anal Biochem ; 582: 113358, 2019 10 01.
Artigo em Inglês | MEDLINE | ID: mdl-31278898

RESUMO

2'-Fucosyllactose (2'-FL) is the most abundant milk oligosaccharide in human breast milk and it has several benefits for infant health. The quantification of 2'-FL in breast milk or in samples from other sources generally requires lengthy analyses. These methods cannot be used to simultaneously detect 2'-FL in numerous samples, which would be more time-efficient. In this study, two genes, namely α1,2-fucosidase from Xanthomonas manihotis and l-fucose dehydrogenase from Pseudomonas sp. no. 1143, were identified, cloned and overexpressed in E. coli. The recombinant enzymes were produced as 6 × His-tagged proteins and were purified to homogeneity using Ni2+ affinity chromatography. The purified α1,2-fucosidase and l-fucose dehydrogenase are monomers with molecular masses of 63 kDa and 36 kDa, respectively. Both enzymes have sufficiently high activities in phosphate-buffered saline (pH 7.0) at 37 °C, making it possible to develop a coupled enzyme reaction in a single buffer system for the quantitative determination of 2'-FL in a large number of samples simultaneously. This method can be used to quantify 2'-FL in infant formulas and in samples collected from different phases of the biotechnological production of this oligosaccharide. Furthermore, the method is applicable for the rapid screening of active variants during the development of microbial strains producing 2'-FL.


Assuntos
Ensaios Enzimáticos , Fórmulas Infantis/química , Leite Humano/química , Trissacarídeos/análise , Desidrogenases de Carboidrato/química , Humanos , Lactente , Recém-Nascido , Pseudomonas/metabolismo , Xanthomonas axonopodis/metabolismo , alfa-L-Fucosidase/química
2.
Biomater Res ; 22: 1, 2018.
Artigo em Inglês | MEDLINE | ID: mdl-29308274

RESUMO

BACKGROUND: Tissue engineering is an interdisciplinary field that attempts to restore or regenerate tissues and organs through biomimetic fabrication of scaffolds with specific functionality. In recent years, graphene oxide (GO) is considered as promising biomaterial due to its nontoxicity, high dispersity, and hydrophilic interaction, and these characteristics are key to stimulating the interactions between substrates and cells. METHOD: In this study, GO substrates were fabricated via chemically immobilizing GO at 1.0 mg/ml on glass slides. Furthermore, we examined the osteogenic responses of murine mesenchymal-like stem cells, C3H10T1/2 cells, on GO substrates. RESULTS: C3H10T1/2 cells on GO substrates resulted in increased cell surface area, enhanced cellular adhesions, and instigated osteogenic differentiation. Furthermore, priming of C3H10T1/2 cells with chondrocyte-conditioned medium (CM) could further induce a synergistic effect of osteogenesis on GO substrates. CONCLUSIONS: All of these data suggest that GO substrate along with CM is suitable for upregulating osteogenic responses of mesenchymal stem cells.

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