Larissa Mattos Trevizano scite author profile

Raffinose oligosaccharides (RO) are the factors primarily responsible for flatulence upon ingestion of soybean-derived products. ROs are hydrolyzed by alpha-galactosidases that cleave alpha-1,6-linkages of alpha-galactoside residues. The objectives of this study were the purification and characterization of extracellular alpha-galactosidase from Debaryomyces hansenii UFV-1. The enzyme purified by gel filtration and anion exchange chromatographies presented an Mr value of 60 kDa and the N-terminal amino acid sequence YENGLNLVPQMGWN. The Km values for hydrolysis of pNP alphaGal, melibiose, stachyose, and raffinose were 0.30, 2.01, 9.66, and 16 mM, respectively. The alpha-galactosidase presented absolute specificity for galactose in the alpha-position, hydrolyzing pNPGal, stachyose, raffinose, melibiose, and polymers. The enzyme was noncompetitively inhibited by galactose (Ki = 2.7 mM) and melibiose (Ki = 1.2 mM). Enzyme treatments of soy milk for 4 h at 60 degrees C reduced the amounts of stachyose and raffinose by 100%.

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Impact of the removal of N-terminal non-structured amino acids on activity and stability of xylanases from Orpinomyces sp. PC-2

Ventorim

Mendes

Trevizano

et al. 2018

International Journal of Biological Macromolecules

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Xylanases catalyze the random hydrolysis of xylan backbone from plant biomass and thus, they have application in the production of biofuels, Kraft pulps biobleaching and feed industry. Here, xylanases derived from Orpinomyces sp. PC-2 were engineered guided by molecular dynamics methods to obtain more thermostable enzymes. Based on these models, 27 amino acid residues from the N-terminal were predicted to reduce protein stability and the impact of this removal was validated to two enzyme constructs: small xylanase Wild-Type (SWT) obtained from Wild-Type xylanase (WT) and small xylanase Mutant (SM2) generated from M2 mutant xylanase (V135A, A226T). The tail removal promoted increase in specific activity of purified SWT and SM2, which achieved 5,801.7 and 5,106.8Umg of protein, respectively, while the WT activity was 444.1Umg of protein. WT, SWT and SM2 showed half-life values at 50°C of 0.8, 2.3 and 29.5h, respectively. Overall, in view of the results, we propose that the presence of non-structured amino acid in the N-terminal leads to destabilization of the xylanases and may promote less access of the substrate to the active site. Therefore, its removal may promote increased stability and enzymatic activity, interesting properties that make them suitable for biotechnological applications.

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Thermostability improvement of Orpinomyces sp. xylanase by directed evolution

Trevizano

Ventorim

Rezende

et al. 2012

Journal of Molecular Catalysis B: Enzymatic

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In vitro resistance of Lactobacillus plantarum LP299v or Lactobacillus rhamnosus GG carried by vegetable appetizer

Campos¹,

Martins²,

Martins³

et al. 2019

LWT

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