Field evaluation of transgenic hybrid poplars with desirable wood properties and enhanced growth for biofuel production by bicistronic expression of PdGA20ox1 and PtrMYB3 in wood-forming tissue [0.03%]
通过木质形成组织中PdGA20ox1和PtrMYB3双顺式表达评价用于生物燃料生产的具有优良木材品质和生长增强的转基因杨树杂种性能
Jin-Seong Cho,Min-Ha Kim,Eun-Kyung Bae et al.
Jin-Seong Cho et al.
Background: To create an ideotype woody bioenergy crop with desirable growth and biomass properties, we utilized the viral 2A-meidated bicistronic expression strategy to express both PtrMYB3 (MYB46 ortholog of Populus tri...
A comprehensive study of the promoting effect of manganese on white rot fungal treatment for enzymatic hydrolysis of woody and grass lignocellulose [0.03%]
锰对白腐真菌处理木质纤维素酶解促进效应的系统研究
Xiao Fu,Jialong Zhang,Xiangyu Gu et al.
Xiao Fu et al.
Background: The efficiency of biological systems as an option for pretreating lignocellulosic biomass has to be improved to make the process practical. Fungal treatment with manganese (Mn) addition for improving lignocell...
A gene-editing/complementation strategy for tissue-specific lignin reduction while preserving biomass yield [0.03%]
一种组织特异性降解木质素同时保持生物量产量的基因编辑/互补策略
Hasi Yu,Chang Liu,Richard A Dixon
Hasi Yu
Background: Lignification of secondary cell walls is a major factor conferring recalcitrance of lignocellulosic biomass to deconstruction for fuels and chemicals. Genetic modification can reduce lignin content and enhance...
Establishment of a resource recycling strategy by optimizing isobutanol production in engineered cyanobacteria using high salinity stress [0.03%]
通过高盐胁迫优化工程蓝藻异丁醇生产建立资源回收策略
Xiao-Xi Wu,Jian-Wei Li,Su-Fang Xing et al.
Xiao-Xi Wu et al.
Background: Isobutanol is an attractive biofuel with many advantages. Third-generation biorefineries that convert CO2 into bio-based fuels have drawn considerable attention due to their lower feedstock cost and more ecofr...
Rational engineering of Saccharomyces cerevisiae towards improved tolerance to multiple inhibitors in lignocellulose fermentations [0.03%]
理性改造酵母菌提高其对木质纤维素水解液中多种抑制剂的耐受性
Bianca A Brandt,Maria D P García-Aparicio,Johann F Görgens et al.
Bianca A Brandt et al.
Background: The fermentation of lignocellulose hydrolysates to ethanol requires robust xylose-capable Saccharomyces cerevisiae strains able to operate in the presence of microbial inhibitory stresses. This study aimed at ...
Conversion of organosolv pretreated hardwood biomass into 5-hydroxymethylfurfural (HMF) by combining enzymatic hydrolysis and isomerization with homogeneous catalysis [0.03%]
有机溶剂预处理硬木生物质转化为羟甲基糠醛(HMF):结合酶水解异构化与均相催化的作用
Grigorios Dedes,Anthi Karnaouri,Asimina A Marianou et al.
Grigorios Dedes et al.
Background: Over the last few years, valorization of lignocellulosic biomass has been expanded beyond the production of second-generation biofuels to the synthesis of numerous platform chemicals to be used instead of thei...
Accessory enzymes of hypercellulolytic Penicillium funiculosum facilitate complete saccharification of sugarcane bagasse [0.03%]
高纤维素降解型少孢节丛霉附属酶协同甘蔗渣的全糖化
Olusola A Ogunyewo,Pooja Upadhyay,Girish H Rajacharya et al.
Olusola A Ogunyewo et al.
Background: Sugarcane bagasse (SCB) is an abundant feedstock for second-generation bioethanol production. This complex biomass requires an array of carbohydrate active enzymes (CAZymes), mostly from filamentous fungi, for...
Impact of operational conditions on methane yield and microbial community composition during biological methanation in in situ and hybrid reactor systems [0.03%]
运行条件对原位和混合反应器系统生物甲烷化过程中甲烷产率和微生物群落组成的影响
Radziah Wahid,Svein Jarle Horn
Radziah Wahid
Background: Biogas can be upgraded to methane biologically by adding H2 to biogas reactors. The process is called biological methanation (BM) and can be done in situ in a regular biogas reactor or the biogas can be transf...
CAZymes from the thermophilic fungus Thermoascus aurantiacus are induced by C5 and C6 sugars [0.03%]
来源于高温产黄梗霉的CAZymes由C5和C6糖类诱导表达
Raphael Gabriel,Rebecca Mueller,Lena Floerl et al.
Raphael Gabriel et al.
Background: Filamentous fungi are excellent lignocellulose degraders, which they achieve through producing carbohydrate active enzymes (CAZymes). CAZyme production is highly orchestrated and gene expression analysis has g...
Enhancement of biohydrogen production rate in Rhodospirillum rubrum by a dynamic CO-feeding strategy using dark fermentation [0.03%]
采用暗发酵动态供料策略提高Rhodopsirillumrubrum生物产氢速率
Alberto Rodríguez,Natalia Hernández-Herreros,José L García et al.
Alberto Rodríguez et al.
Background: Rhodospirillum rubrum is a purple non-sulphur bacterium that produces H2 by photofermentation of several organic compounds or by water gas-shift reaction during CO fermentation. Successful strategies for both ...