Biochemical characterization of extracellular fructosyltransferase fromAspergillus oryzaeIPT-301 immobilized on silica gel for the production of fructooligosaccharides

Faria Larissa Lemos; Villalba Morales Sergio Andres; Zanetti Prado Jose Pedro; Dias Giancarlo de Souza; de Almeida Alex Fernando; Abreu Xavier Michelle da Cunha; da Silva Elda Sabino; Maiorano Alfredo Eduardo; Perna Rafael Firmani

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Biochemical characterization of extracellular fructosyltransferase fromAspergillus oryzaeIPT-301 immobilized on silica gel for the production of fructooligosaccharides

机译：从硅胶固定在硅胶上固定的细胞外果糖基转移酶的生化表征在硅胶上产生果寡糖的生产

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Objective Extracellular fructosyltransferase (FTase, E.C.2.4.1.9) fromAspergillus oryzaeIPT-301 was immobilized on silica gel by adsorption and biochemically characterized aiming at its application in the transfructosylation reaction of sucrose for the production of fructooligossaccarides (FOS). Results The transfructosylation activity (A(T)) was maximized by the experimental design in function of the reaction pHs and temperatures. The A(T)of the immobilized enzyme showed the kinetics behavior described by the Hill model. The immobilized FTase showed reuse capacity for six consecutive reaction cycles and higher pH and thermal stability than the soluble enzyme. Conclusion These results suggest a high potential of application of silica gel as support for FTase immobilization aiming at FOS production.

机译：目标细胞外果糖基转移酶（Ftase，例如，E.C.2.4.1.9）通过吸附和生物化学表征在硅胶上固定在硅胶上，其在蔗糖的转晶沉淀反应中的应用，用于生产果肉寡糖（FOS）。结果通过反应pHS和温度的功能，通过实验设计最大化转晶溶胶化活性（A（T））。固定化酶的A（t）显示了山丘模型描述的动力学行为。固定化的FTase显示出六连续反应循环和比可溶性酶更高的pH和热稳定性的再利用能力。结论这些结果表明硅胶施加的高潜力作为旨在FOS生产的FOS固定化。

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《Biotechnology Letters》 |2021年第1期|共17页
作者
Faria Larissa Lemos; Villalba Morales Sergio Andres; Zanetti Prado Jose Pedro; Dias Giancarlo de Souza; de Almeida Alex Fernando; Abreu Xavier Michelle da Cunha; da Silva Elda Sabino; Maiorano Alfredo Eduardo; Perna Rafael Firmani;
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作者单位

Fed Univ Alfenas UNIFAL MG Inst Sci &

Technol Jose Aurelio Vilela Rd 11999 Km 533 BR-37715400 Pocos De Caldas MG Brazil;

Fed Univ Alfenas UNIFAL MG Inst Sci &

Technol Jose Aurelio Vilela Rd 11999 Km 533 BR-37715400 Pocos De Caldas MG Brazil;

Fed Univ Alfenas UNIFAL MG Inst Sci &

Technol Jose Aurelio Vilela Rd 11999 Km 533 BR-37715400 Pocos De Caldas MG Brazil;

Fed Univ Alfenas UNIFAL MG Inst Sci &

Technol Jose Aurelio Vilela Rd 11999 Km 533 BR-37715400 Pocos De Caldas MG Brazil;

Fed Univ Tocantins UFT Dept Bioproc Engn &

Biotechnol Badejos St 69-72 BR-77404970 Gurupi TO Brazil;

Fed Univ Tocantins UFT Dept Bioproc Engn &

Biotechnol Badejos St 69-72 BR-77404970 Gurupi TO Brazil;

Inst Technol Res IPT SP Bionanomfg Ctr Av Prof Almeida Prado 532 BR-05508901 Sao Paulo SP Brazil;

Inst Technol Res IPT SP Bionanomfg Ctr Av Prof Almeida Prado 532 BR-05508901 Sao Paulo SP Brazil;

Fed Univ Alfenas UNIFAL MG Inst Sci &

Technol Jose Aurelio Vilela Rd 11999 Km 533 BR-37715400 Pocos De Caldas MG Brazil;

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正文语种 eng
中图分类分子生物学;
关键词
Fructosyltransferase; Aspergillus; Immobilization; Silica gel; Enzymatic characterization;

机译：果糖转移酶;曲霉菌;固定化;硅胶;酶促表征;

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4. Highly Efficient Synthesis of Fructooligosaccharides by Extracellular Fructooligosaccharide-Producing Enzymes and Immobilized Cells of Aspergillus aculeatus M105 and Purification and Biochemical Characterization of a Fructosyltransferase from the Fungus [J] . Huang Mei-Ping, Wu Min, Xu Qiang-Sheng, Journal of Agricultural and Food Chemistry . 2016,第33期

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6. SYNTHESIS AND CHARACTERIZATION OF FRUCTOSYLTRANSFERASE FROM Aspergillus oryzae IPT-301 FOR HIGH FRUCTOOLIGOSACCHARIDES PRODUCTION [J] . Josivan S.?Cunha, Cristiane A.?Ottoni, Sergio A.V.?Morales, Brazilian journal of chemical engineering . 2019,第2期

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Biochemical characterization of extracellular fructosyltransferase fromAspergillus oryzaeIPT-301 immobilized on silica gel for the production of fructooligosaccharides

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