利用碳水化合物结合模块(CBMs)监测在纤维素酶和膨胀素诱导的木质纤维素底物解构过程中纤维素纤维碎片化和表面形态的变化。
The use of carbohydrate binding modules (CBMs) to monitor changes in fragmentation and cellulose fiber surface morphology during cellulase- and Swollenin-induced deconstruction of lignocellulosic substrates.
作者信息
Gourlay Keith, Hu Jinguang, Arantes Valdeir, Penttilä Merja, Saddler Jack N
机构信息
From the Forest Products Biotechnology/Bioenergy Group, Department of Wood Science, Faculty of Forestry, University of British Columbia, Vancouver, British Columbia V6T 1Z4, Canada and.
the VTT Technical Research Centre of Finland, Metallimiehenkuja 2 (Espoo), FI-02044 VTT, Finland.
出版信息
J Biol Chem. 2015 Jan 30;290(5):2938-45. doi: 10.1074/jbc.M114.627604. Epub 2014 Dec 19.
Abstract
Although the actions of many of the hydrolytic enzymes involved in cellulose hydrolysis are relatively well understood, the contributions that amorphogenesis-inducing proteins might contribute to cellulose deconstruction are still relatively undefined. Earlier work has shown that disruptive proteins, such as the non-hydrolytic non-oxidative protein Swollenin, can open up and disaggregate the less-ordered regions of lignocellulosic substrates. Within the cellulosic fraction, relatively disordered, amorphous regions known as dislocations are known to occur along the length of the fibers. It was postulated that Swollenin might act synergistically with hydrolytic enzymes to initiate biomass deconstruction within these dislocation regions. Carbohydrate binding modules (CBMs) that preferentially bind to cellulosic substructures were fluorescently labeled. They were imaged, using confocal microscopy, to assess the distribution of crystalline and amorphous cellulose at the fiber surface, as well as to track changes in surface morphology over the course of enzymatic hydrolysis and fiber fragmentation. Swollenin was shown to promote targeted disruption of the cellulosic structure at fiber dislocations.
摘要
尽管参与纤维素水解的许多水解酶的作用已得到较为充分的了解,但诱导无定形化的蛋白质对纤维素解构可能做出的贡献仍相对不明确。早期研究表明,诸如非水解性非氧化蛋白膨胀素等破坏性蛋白质能够打开并分解木质纤维素底物中无序程度较低的区域。在纤维素部分,沿着纤维长度方向存在着相对无序的无定形区域,即所谓的位错。据推测,膨胀素可能与水解酶协同作用,在这些位错区域启动生物质的解构。对优先结合纤维素亚结构的碳水化合物结合模块(CBM)进行荧光标记。使用共聚焦显微镜对它们进行成像,以评估纤维表面结晶纤维素和无定形纤维素的分布情况,以及追踪酶水解和纤维破碎过程中表面形态的变化。结果表明,膨胀素可促进纤维位错处纤维素结构的靶向破坏。
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