An iterative computational design approach to increase the thermal endurance of a mesophilic enzyme [0.03%]
一种迭代计算设计方法 可提高嗜中温酶的耐热性
Deanne W Sammond,Noah Kastelowitz,Bryon S Donohoe et al.
Deanne W Sammond et al.
Background: Strategies for maximizing the microbial production of bio-based chemicals and fuels include eliminating branched points to streamline metabolic pathways. While this is often achieved by removing key enzymes, t...
Iterative cycle of widely targeted metabolic profiling for the improvement of 1-butanol titer and productivity in Synechococcus elongatus [0.03%]
用于提高Synechococcus elongatus中1-丁醇滴度和产量的广泛目标代谢谱的迭代循环
Artnice Mega Fathima,Derrick Chuang,Walter Alvarez Laviña et al.
Artnice Mega Fathima et al.
Background: Metabolomics is the comprehensive study of metabolites that can demonstrate the downstream effects of gene and protein regulation, arguably representing the closest correlation with phenotypic features. Hence,...
Release of cell wall phenolic esters during hydrothermal pretreatment of rice husk and rice straw [0.03%]
热水预处理过程中稻壳和稻草细胞壁酚类酯的释放
Jia Wu,Samuel R A Collins,Adam Elliston et al.
Jia Wu et al.
Background: Rice husk and rice straw represent promising sources of biomass for production of renewable fuels and chemicals. For efficient utilisation, lignocellulosic components must first be pretreated to enable efficie...
Regioselectivity of oxidation by a polysaccharide monooxygenase from Chaetomium thermophilum [0.03%]
高温链霉菌多糖单氧化酶的选择性氧化作用
Chen Chen,Jinyin Chen,Zhigang Geng et al.
Chen Chen et al.
Background: Polysaccharide monooxygenases (PMOs) of the auxiliary activity 9 (AA9) family have been reported to oxidize C1, C4, and C6 positions in cellulose. However, currently no direct evidence exists that PMOs oxidize...
Genomic and proteomic analysis of lignin degrading and polyhydroxyalkanoate accumulating β-proteobacterium Pandoraea sp. ISTKB [0.03%]
产黄单胞菌ISTKB的基因组和蛋白质组分析及其降解木质素和累积聚羟基烷酸的研究
Madan Kumar,Sandhya Verma,Rajesh Kumar Gazara et al.
Madan Kumar et al.
Background: Lignin is a major component of plant biomass and is recalcitrant to degradation due to its complex and heterogeneous aromatic structure. The biomass-based research mainly focuses on polysaccharides component o...
Fate of p-hydroxycinnamates and structural characteristics of residual hemicelluloses and lignin during alkaline-sulfite chemithermomechanical pretreatment of sugarcane bagasse [0.03%]
糖蜜渣两步碱性亚硫酸盐化机械预处理过程中对羟基桂皮酸类物质和残余半纤维素及木质素结构特征的变化研究
Felipe A M Reinoso,Jorge Rencoret,Ana Gutiérrez et al.
Felipe A M Reinoso et al.
Background: Preparing multiple products from lignocellulosic biomass feedstock enhances the profit and sustainability of future biorefineries. Grasses are suitable feedstocks for biorefineries as they permit a variety of ...
Metabolic pairing of aerobic and anaerobic production in a one-pot batch cultivation [0.03%]
一种批式培养中好氧和厌氧生产的代谢偶联模式
Milla Salmela,Tapio Lehtinen,Elena Efimova et al.
Milla Salmela et al.
Background: The versatility of microbial metabolic pathways enables their utilization in vast number of applications. However, the electron and carbon recovery rates, essentially constrained by limitations of cell energet...
Correction to: Pelagibaca bermudensis promotes biofuel competence of Tetraselmis striata in a broad range of abiotic stressors: dynamics of quorum-sensing precursors and strategic improvement in lipid productivity [0.03%]
Correction to: Pelagibaca bermudensis促进佩拉吉巴卡伯慕达森斯菌门生物燃料能力在广泛的非生物压力下:群体感应前体的动态及脂质产量的战略改进
Shailesh Kumar Patidar,Sae-Hee Kim,Jin Ho Kim et al.
Shailesh Kumar Patidar et al.
[This corrects the article DOI: 10.1186/s13068-018-1097-9.].
Published Erratum
Biotechnology for biofuels. 2018 Jul 3:11:186. DOI:10.1186/s13068-018-1185-x 2018
Recent developments in synthetic biology and metabolic engineering in microalgae towards biofuel production [0.03%]
微藻生物燃料生产的人工合成生物学和代谢工程的最新进展
Sheeja Jagadevan,Avik Banerjee,Chiranjib Banerjee et al.
Sheeja Jagadevan et al.
In the wake of the uprising global energy crisis, microalgae have emerged as an alternate feedstock for biofuel production. In addition, microalgae bear immense potential as bio-cell factories in terms of producing key chemicals, recombinan...
Biochemical methane potential of microalgae biomass using different microbial inocula [0.03%]
采用不同微生物接种物测定微藻生物质生化甲烷潜能
Cristina Gonzalez-Fernandez,Santiago Barreiro-Vescovo,Ignacio de Godos et al.
Cristina Gonzalez-Fernandez et al.
Background: Microalgae biomass is regarded as a potential feedstock for bioenergy purposes through anaerobic digestion (AD). Even though AD is a well-proven technology, the use of new feedstocks requires in-depth studies....