The Joint BioEnergy Institute, Emeryville, USA.
BMC Biotechnol. 2012 Jul 3;12:38. doi: 10.1186/1472-6750-12-38.
Metagenomics approaches provide access to environmental genetic diversity for biotechnology applications, enabling the discovery of new enzymes and pathways for numerous catalytic processes. Discovery of new glycoside hydrolases with improved biocatalytic properties for the efficient conversion of lignocellulosic material to biofuels is a critical challenge in the development of economically viable routes from biomass to fuels and chemicals.
Twenty-two putative ORFs (open reading frames) were identified from a switchgrass-adapted compost community based on sequence homology to related gene families. These ORFs were expressed in E. coli and assayed for predicted activities. Seven of the ORFs were demonstrated to encode active enzymes, encompassing five classes of hemicellulases. Four enzymes were over expressed in vivo, purified to homogeneity and subjected to detailed biochemical characterization. Their pH optima ranged between 5.5 - 7.5 and they exhibit moderate thermostability up to ~60-70°C.
Seven active enzymes were identified from this set of ORFs comprising five different hemicellulose activities. These enzymes have been shown to have useful properties, such as moderate thermal stability and broad pH optima, and may serve as the starting points for future protein engineering towards the goal of developing efficient enzyme cocktails for biomass degradation under diverse process conditions.
宏基因组学方法为生物技术应用提供了获取环境遗传多样性的途径,使人们能够发现用于众多催化过程的新酶和途径。发现具有改进的生物催化特性的新型糖苷水解酶,可有效将木质纤维素材料转化为生物燃料,这是从生物质到燃料和化学品的经济可行途径发展中的关键挑战。
基于与相关基因家族的序列同源性,从适应柳枝稷的堆肥群落中鉴定出 22 个推定的 ORF(开放阅读框)。这些 ORF 在大肠杆菌中表达并测定了预测的活性。证明其中 7 个 ORF 编码有活性的酶,涵盖了 5 类半纤维素酶。其中 4 种酶在体内过表达、纯化为均一性,并进行了详细的生化特性分析。它们的 pH 最佳范围在 5.5-7.5 之间,并且具有适度的热稳定性,最高可达~60-70°C。
从这组 ORF 中鉴定出 7 种具有活性的酶,包含 5 种不同的半纤维素活性。这些酶具有有用的特性,例如适度的热稳定性和较宽的 pH 最佳范围,它们可能成为未来蛋白质工程的起点,以开发在不同工艺条件下有效降解生物质的酶混合物。
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