Towards efficient biocatalysts: photo-immobilization of a lipase on novel lysozyme amyloid-like nanofibrils

Chaves Silvina; Pera Licia M.; Luis Avila Cesar; Romero Cintia M.; Baigori Mario; Moran Vieyra F. Eduardo; Borsarelli Claudio D.; Chehin Rosana N.

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Towards efficient biocatalysts: photo-immobilization of a lipase on novel lysozyme amyloid-like nanofibrils

机译：高效的生物催化剂：对新型溶菌酶淀粉样淀粉样纳米纤维的脂肪酶的光固定化

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Herein, we report the preparation and characterization of a new biocatalyst based on the photo-immobilization of a lipase onto hybrid protein : sugar nanofibrils. The nanofibrils are obtained through the aggregation of hen white egg lysozyme induced by the highly sulfated glycosaminoglycan heparin. The new hybrid nanomaterial could be easily functionalized using photochemical reaction to attach lipases through dityrosine covalent bonds. Compared to the free enzyme, the photo-immobilized lipase has better thermostability and enhanced resistance to non-conventional environment. Structural and morphological characterization of the nanofibrils shows that they are compatible with amyloid-like aggregates. In addition, the supramolecular arrangement of heparin and lysozyme within the building unit of the nanofibrils is also proposed. The procedure reported herein could be useful to design a new generation of insoluble biocatalyst by a single photo-click step which is definitely cleaner and faster than conventional chemical cross-linked procedures.

机译：在此，我们报告基于脂肪酶的光固定到杂交蛋白的光固定化的新生物催化剂的制备和表征：糖纳米纤维。通过由高硫酸化糖胺聚糖肝素诱导的母鸡白蛋溶菌酶的聚集来获得纳米纤维。可以使用光化学反应容易地官能化新的杂交纳米材料，以通过双核的共价键将脂肪酶加固。与游离酶相比，光固定化脂肪酶具有更好的热稳定性和增强对非常规环境的抗性。纳米纤维的结构和形态学表明它们与淀粉样蛋白状聚集体相容。此外，还提出了纳米纤维的建筑单元内肝素和溶菌酶的超分子排列。本文报告的程序可用于通过单个照片点击步骤设计新一代的不溶性生物催化剂，这绝对是清洁的，并且比传统的化学交联手术更快。

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《RSC Advances》 |2016年第11期|共11页
作者
Chaves Silvina; Pera Licia M.; Luis Avila Cesar; Romero Cintia M.; Baigori Mario; Moran Vieyra F. Eduardo; Borsarelli Claudio D.; Chehin Rosana N.;
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UNT Inst Super Invest Biol INSIBIO CONICET UNT Chacabuco 461 T4000ILI San Miguel De Tucuman Tucuman Argentina;

Planta Piloto Procesos Ind Microbiol PROIMI CONIC Av Belgrano &

Pasaje Caseros T4001 MVB San Miguel De Tucuman Tucuman Argentina;

UNT Inst Super Invest Biol INSIBIO CONICET UNT Chacabuco 461 T4000ILI San Miguel De Tucuman Tucuman Argentina;

Planta Piloto Procesos Ind Microbiol PROIMI CONIC Av Belgrano &

Pasaje Caseros T4001 MVB San Miguel De Tucuman Tucuman Argentina;

Planta Piloto Procesos Ind Microbiol PROIMI CONIC Av Belgrano &

Pasaje Caseros T4001 MVB San Miguel De Tucuman Tucuman Argentina;

UNSE INBIONATEC CONICET Inst Bionanotecnol RN 9 Km 1125 G4206XCP Santiago Del Estero Argentina;

UNSE INBIONATEC CONICET Inst Bionanotecnol RN 9 Km 1125 G4206XCP Santiago Del Estero Argentina;

UNT Inst Super Invest Biol INSIBIO CONICET UNT Chacabuco 461 T4000ILI San Miguel De Tucuman Tucuman Argentina;

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1. Towards efficient biocatalysts: photo-immobilization of a lipase on novel lysozyme amyloid-like nanofibrils [J] . Chaves Silvina, Pera Licia M., Luis Avila Cesar, RSC Advances . 2016,第11期

机译：高效的生物催化剂：对新型溶菌酶淀粉样淀粉样纳米纤维的脂肪酶的光固定化
2. Fabrication of immobilized Candida rugosa lipase on magnetic Fe_3O_4-poly(glycidyl methacrylate-co-methacrylic acid) composite as an efficient and recyclable biocatalyst for enzymatic production of biodiesel [J] . Xie Wenlei, Huang Mengyun Renewable energy . 2020,第Octa期

机译：在磁Fe_3O_4-聚（缩水甘油酯 - 共甲基丙烯酸丙烯酸）复合物中的固定念珠菌脂肪酶的制备作为生物柴油酶促生产的有效和可回收的生物催化剂
3. Efficient biotechnological synthesis of flavor esters using a low-cost biocatalyst with immobilized Rhizomucor miehei lipase [J] . de Oliveira Ulisses M. F., Lima de Matos Leonardo J. B., de Souza Maria Cristiane M., Molecular biology reports . 2019,第1期

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4. Heterogeneous biocatalyst:Polyurethane foam coating technique with co-immobilized lipase for bio-flavor production [C] . D Moentamaria, H Dewajani, A Chumaidi Annual Technology, Applied Science, and Engineering Conference . 2021

机译：非均相生物催化剂：聚氨酯泡沫涂料技术，具有共同固定脂肪酶的生物味生产
5. A Biocomposite Biocatalyst for Energy Efficient Gas-to-Liquid Conversion of Carbon Monoxide by Clostridium ljungdahlii OTA1. [D] . Schulte, Mark Joseph. 2016

机译：一种生物合成生物催化剂，可通过隆氏梭菌OTA1高效地将一氧化碳转化为气体。
6. Efficient biocatalyst by encapsulating lipase into nanoporous gold [O] . Xiaoyu Du, Xueying Liu, Yufei Li, 2013

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7. Lipase B from Candida antarctica Immobilized on Epoxy-functionalized Hollow Silica Microspheres: Efficient Biocatalysts for Enantiomer Selective Acylation of Alcohols and Amines [O] . Márk Oláh, Szandra Suba, Zoltán Boros, 2018

机译：来自Candida南极洲的脂肪酶B固定在环氧官能化中空二氧化硅微球上：高效生物催化剂用于对醇和胺的映体选择性酰化

Towards efficient biocatalysts: photo-immobilization of a lipase on novel lysozyme amyloid-like nanofibrils

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