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Engineering Klebsiella sp. 601 multicopper oxidase enhances the catalytic efficiency towards phenolic substrates

机译：工程克雷伯菌属601铜氧化酶增强了对酚醛底物的催化效率

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BackgroundStructural comparison between bacterial CueO and fungal laccases has suggested that a charged residue Glu (E106) in CueO replaces the corresponding residue Phe in fungal laccases at the gate of the tunnel connecting type II copper to the protein surface and an extra α-helix (L351-G378) near the type I copper site covers the substrate binding pocket and might compromise the electron transfer from substrate to type I copper. To test this hypothesis, several mutants were made in Klebsiella sp. 601 multicopper oxidase, which is highly homologous to E. coli CueO with a similarity of 90% and an identity of 78%.

机译：背景细菌CueO和真菌漆酶之间的结构比较表明，CueO中带电荷的残基Glu（E106）取代了将II型铜连接到蛋白质表面和额外的α-螺旋（L351 -G378）靠近I型铜位点覆盖了基片结合袋，可能会损害电子从基片到I型铜的转移。为了检验该假设，在克雷伯菌属中产生了几个突变体。 601多铜氧化酶，与大肠杆菌CueO高度同源，相似性为90％，同一性为78％。

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期刊名称 BMC Biochemistry
作者
Yadong Li; Zijun Gong; Xin Li; Yang Li; Xing-Guo Wang;
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年(卷),期 2011(12),-1
年度 2011
页码 30
总页数 9
原文格式 PDF
正文语种
中图分类分子生物学;
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入库时间 2022-08-17 14:40:10

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1. Engineering Klebsiella sp . 601 multicopper oxidase enhances the catalytic efficiency towards phenolic substrates [J] . Yadong Li, Zijun Gong, Xin Li, BMC Biochemistry . 2011,第1期

机译：工程克雷伯菌属。 601铜氧化酶增强了对酚醛底物的催化效率
2. Gene cloning, protein purification, and enzymatic properties of multicopper oxidase, from Klebsiella sp. 601. [J] . Li Y, Yin J, Qu G, Canadian journal of microbiology . 2008,第9期

机译：克雷伯菌的多铜氧化酶的基因克隆，蛋白质纯化和酶学性质。 601。
3. Gene cloning, protein purification, and enzymatic properties of multicopper oxidase, from Klebsiella sp. 601 [J] . Li Yang, Yin Jiao, Qu Guosheng, Canadian Journal of Microbiology . 2008,第9期

机译：克雷伯菌属的多铜氧化酶的基因克隆，蛋白质纯化和酶促性质。 601
4. ENGINEERING ALCOHOL OXIDASES FOR SUBSTRATE SCOPE AND THEIR APPLICATION IN FLOW AND CASCADE BIOCATALYSIS [C] . Rachel Heath, Matthew Thompson, Jeremy Ramsden, Conference on biochemical and molecular engineering . 2019

机译：用于基质范围的工程醇氧化酶及其在流动和级联生物催化中的应用
5. Engineering and Production of Glucooligosaccharide Oxidases for Site-specific Activation of Cellulose and Hemicellulose Substrates. [D] . Alhaeri, Maryam Foumani. 2015

机译：纤维素和半纤维素底物的位点特异性活化的葡糖寡糖氧化酶的工程和生产。
6. Genome analysis of Pseudomonas sp. OF001 and Rubrivivax sp. A210 suggests multicopper oxidases catalyze manganese oxidation required for cylindrospermopsin transformation [O] . Erika Berenice Martínez-Ruiz, Myriel Cooper, Jimena Barrero-Canosa, 2021

机译：Pseudomonas sp的基因组分析。 OF001和RUBRIVIVIVAX SP。 A210表明多氧化物氧化酶催化Cylindrospermopsin转化所需的锰氧化
7. Engineering Klebsiella sp. 601 multicopper oxidase enhances the catalytic efficiency towards phenolic substrates [O] . Yadong Li, Zijun Gong, Xin Li, 2011

机译：工程克雷伯菌属601铜氧化酶增强了对酚醛底物的催化效率

Engineering Klebsiella sp. 601 multicopper oxidase enhances the catalytic efficiency towards phenolic substrates

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