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ANR-FUNTASTIC - Fungal copper-radical oxidases as new biocatalysts for the valorization of biomass carbohydrates and alcohols

ANR-FUNTASTIC - 真菌铜自由基氧化酶作为生物催化剂，用于生物质碳水化合物和醇的增值

基本信息

批准号：
493781-2016
负责人：
Brumer, Harry
金额：
$ 17.41万
依托单位：
University of British Columbia
依托单位国家：
加拿大
项目类别：
Strategic Projects - Group
财政年份：
2017
资助国家：
加拿大
起止时间：
2017-01-01 至 2018-12-31
项目状态：
已结题

来源：
https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=642133
关键词：
ANR FUNTASTIC Fungal copper radical

项目摘要

Terrestrial plant biomass, in the form of agricultural crops and forest materials, constitutes one of Canada's most important and abundant natural resources. Indeed, Canada's forests are iconic, and the forest products industry has long been a major contributor to the national gross domestic product (GDP). However, shifting consumer demands and a challenging global economy for traditional products have stimulated strong interest in the development of novel routes to produce innovative, high valued-added products from forest biomass. There is likewise significant interest to derive more value from the presently under-utilized biomass residues that result from Canada's vast agricultural output. By analogy with the petrochemical refinery, the modern "biorefinery" comprises the separation of renewable forest and agricultural biomass into key constituents (including fibres, complex carbohydrates, lignin, and extractives), followed by upgrading of these fractions to high-value bioproducts. To realize the full potential of the biorefinery to transform Canada's bioeconomy, there is significant need to devise efficient, low-input processes that are also environmentally sustainable.Thus, the vision of this Strategic research project is to translate fundamental insight gained through the discovery and characterization of novel enzymes, to develop new technology to upgrade raw bioproducts to high-value materials and chemical intermediates. State-of-the-art genomic and biochemical methods will be used to unlock the catalytic diversity of the Copper-Radical Oxidases, archetypal members of which have been shown to selectively modify biomass polysaccharides and alcohols. These enzymes, which uniquely require only oxygen as a co-substrate, represent a currently under-exploited class of efficient biocatalysts that can be harnessed to introduce new functionality into key biomass components. Through multi-disciplinary training and close interaction with a dynamic Canadian enzyme technology company, this project will produce innovative biotechnology and highly qualified personnel to add value to Canada's vast biomass resources.

以农作物和森林材料形式存在的陆地植物生物量是加拿大最重要和最丰富的自然资源之一。事实上，加拿大的森林是标志性的，森林产品行业长期以来一直是国内生产总值（GDP）的主要贡献者。然而，不断变化的消费者需求和全球经济对传统产品的挑战激发了人们对开发新路线以利用森林生物质生产创新、高附加值产品的浓厚兴趣。同样，人们对从加拿大巨大的农业产出所产生的目前未充分利用的生物质残余物中获得更多价值也很感兴趣。与石化炼油厂类似，现代“生物炼油厂”包括将可再生森林和农业生物质分离成关键成分（包括纤维、复合碳水化合物、木质素和提取物），然后将这些部分升级为高价值的生物产品。为了充分发挥生物炼制的潜力，改变加拿大的生物经济，有显着需要设计高效，低投入的过程，也是环境可持续的。因此，这个战略研究项目的愿景是翻译通过发现和表征新酶获得的基本见解，开发新技术，将原料生物产品升级为高价值的材料和化学中间体。最先进的基因组和生物化学方法将用于解锁铜自由基氧化酶的催化多样性，其原型成员已被证明可以选择性地修饰生物质多糖和醇。这些酶仅需要氧气作为共底物，代表了目前尚未开发的一类有效生物催化剂，可用于将新功能引入关键生物质组分。通过多学科培训和与一家充满活力的加拿大酶技术公司的密切互动，该项目将产生创新的生物技术和高素质的人才，为加拿大丰富的生物质资源增值。