Exploring the synergy between fungal CE15 glucuronoyl esterases and xylanases for lignocellulose saccharification [0.03%]
探索木质纤维素水解中担子菌CE15葡萄糖醛酸酯酶与木聚糖酶间的协同作用关系
Christina Pentari,Constantinos Katsimpouras,Mireille Haon et al.
Christina Pentari et al.
Background: Lignin-carbohydrate complexes in lignocellulosic biomass act as a barrier to its biodegradation and biotechnological exploitation. Enzymatic dissociation between lignin and hemicellulose is a key process that ...
Combining biosensor and metabolic network optimization strategies for enhanced L-threonine production in Escherichia coli [0.03%]
将生物传感器和代谢网络优化策略相结合以提高大肠杆菌L-苏氨酸的产量
Zhenqiang Zhao,Rongshuai Zhu,Xuanping Shi et al.
Zhenqiang Zhao et al.
L-threonine is an integral nutrient for mammals, often used in animal feeds to enhance growth and reduce breeding costs. Developing L-threonine engineered strains that meet industrial production specifications has significant economic value...
Carbohydrate and lipid yield in Microcystis aeruginosa for biofuel production under different light qualities [0.03%]
不同光照质量对微囊藻中碳水化合物和脂质生物燃料产量的影响
Wangbo Chen,Sun Xu,Shuzhen Zou et al.
Wangbo Chen et al.
Background: Biofuels produced from algae have enormous advantages in replacing fossil fuels, and Microcystis aeruginosa has a great potential for biofuel production, due to growing fast to form large amounts of biomass. L...
Supercritical carbon dioxide extraction of lipids and carotenoids from Rhodotorula toruloides CBS 14 in comparison with conventional extraction methods [0.03%]
超临界二氧化碳从红酵母(Rhodotorula toruloides)中萃取脂类和胡萝卜素与传统萃取方法的比较研究
Yashaswini Nagavara Nagaraj,Johanna Blomqvist,Sabine Sampels et al.
Yashaswini Nagavara Nagaraj et al.
Background: Oil from oleaginous yeasts has the potential to replace non-sustainable vegetable oil as raw material to produce food, feed, biofuels, or biochemicals. Co-produced compounds like carotenoids may be helpful to ...
Bacillus subtilis surface display technology: applications in bioprocessing and sustainable manufacturing [0.03%]
枯草芽孢杆菌表面展示技术在生物加工和可持续制造中的应用
Howra Bahrulolum,Gholamreza Ahmadian
Howra Bahrulolum
The growing demand for sustainable and eco-friendly alternatives in bioprocessing, healthcare, and manufacturing has stimulated significant interest in Bacillus subtilis surface display technology. This innovative platform, leveraging both ...
Benchmarking commercially available value-added fractions with potential for production via microalgae-based biorefineries: is it worth it? [0.03%]
可用于微藻基生物精炼厂生产的商业可用增值分额的基准测试:值得这样做吗?
Flávio Ferreira,Joana Ortigueira,Alberto Reis et al.
Flávio Ferreira et al.
The urgent need to mitigate climate change requires finding sustainable and efficient alternatives to fossil fuel-based materials. Biosequestration by microalgae has been suggested as a potential method for climate change mitigation due to ...
Discovery of the antifungal compound ilicicolin K through genetic activation of the ilicicolin biosynthetic pathway in Trichoderma reesei [0.03%]
通过在木霉中激活异翅菊化合物生物合成途径而发现抗真菌化合物异翅菊素K
Isabella Burger,Matthias Schmal,Kathrin Peikert et al.
Isabella Burger et al.
Background: Given the global rise in antimicrobial resistance, the discovery of novel antimicrobial agents and production processes thereof are of utmost importance. To this end we have activated the gene cluster encoding...
Correction: Shewanella oneidensis and Methanosarcina barkerii augmentation and conductive material effects on long‑term anaerobic digestion performance [0.03%]
修正:长期厌氧消化性能的Shewanella oneidensis和Methanosarcina barkeri增强及导电材料影响研究
Camilla Perego,Roger König,Maurizio Cuomo et al.
Camilla Perego et al.
Cinnamyl alcohol dehydrogenase downregulation in poplar wood increases saccharification after dilute acid pretreatment: a key role for lignin revealed by a multimodal investigation [0.03%]
杨木中的肉桂醇脱氢酶下调通过多模态研究发现在稀酸预处理后增加了糖化并且揭示了木质素的关键作用
Julien du Pasquier,Aya Zoghlami,Youri Naudin et al.
Julien du Pasquier et al.
This study is the first to apply dilute acid pretreatment (DAP) under different severity conditions to poplar wood genetically modified for the cinnamyl alcohol dehydrogenase (CAD1) gene, which is involved in the lignin biosynthesis pathway...
Transcriptome analysis and reverse engineering verification of SNZ3Val125Ile and Pho3Asn134Asp revealed the mechanism of adaptive laboratory evolution to increase the yield of tyrosol in Saccharomyces cerevisiae strain S26-AE2 [0.03%]
转录组分析及反向工程验证SNZ3Val125Ile和Pho3Asn134Asp揭示了适应性实验室进化提高酿酒酵母菌株S26-AE2产生的酪醇产量的机制
Na Song,Huili Xia,Xiaoxue Yang et al.
Na Song et al.
Background: Tyrosol is an important drug precursor, and Saccharomyces cerevisiae is one of the main microorganisms that produces tyrosol. Although excessive metabolic modification increases the production of tyrosol, it a...