Functional characterization of a dockerin-containing expansin-like protein from the anaerobic fungus Neocallimastix californiae [0.03%]
来源于厌氧真菌Neocalimastix californiae的含靠泊区类膨胀素蛋白的功能表征
Taru Koitto,Anna Pohto,Elizaveta Sidorova et al.
Taru Koitto et al.
Background: Anaerobic microbes produce multienzyme complexes known as cellulosomes to enhance the degradation of cellulosic substrates. These complexes localize diverse enzymes onto a protein scaffold, where proteins are ...
From beet molasses to malic acid: holistic development of fermentation and downstream process [0.03%]
从糖蜜到苹果酸:发酵及下游工艺的全局开发
Luca Antonia Grebe,Christina Maria Krekel,Constantin Alexander Maaß et al.
Luca Antonia Grebe et al.
Background: The growing demand for sustainable alternatives to fossil-based chemicals has increased interest in platform chemicals derived from renewable biomass sources, such as malic acid. This C4 dicarboxylic acid is v...
Mozhdeh Alipoursarbani,Jeroen Tideman,Mitzy López et al.
Mozhdeh Alipoursarbani et al.
Bioaugmentation, the intentional introduction of specific microorganisms into anaerobic digestion (AD) systems, has shown promise in enhancing methane production and in mitigating stressful conditions, particularly in systems operating belo...
Reliable renewable electricity generation system on small animal farms for rural electric vehicle charging [0.03%]
小型动物养殖场的可靠可再生能源发电系统用于农村电动汽车充电
Meicai Xu,Carter Monson,Jacob Willsea et al.
Meicai Xu et al.
The adoption of electric vehicles (EVs) in rural areas is constrained by limited charging infrastructure, while small-scale dairy farms remain significant sources of greenhouse gas (GHG) emissions from manure management. This study addresse...
Identification and comparative genomic analysis of prophage sequences and CRISPR‒Cas immunity in Methylococcus genomes: insights into industrial methane bioconversion [0.03%]
甲基球菌基因组中的噬菌体序列鉴定及比较基因组分析和CRISPR-Case免疫:对工业甲烷生物转化的启示
Irina Nizovtseva,Alexey Rezaykin,Aleksandra Korenskaia et al.
Irina Nizovtseva et al.
Background: Methylococcus species utilize methane as the sole carbon and energy source, converting it into biomass and other metabolic end products. Owing to this metabolic capacity, they hold particular promise in indust...
Characterization of an AA9 LPMO from Fusarium oxysporum and its role in cellulose hydrolysis and functionalization [0.03%]
构巢曲霉AA9 LPMO的表征及其在纤维素水解和功能化中的作用
Koar Chorozian,Maria Dimarogona,Marijana Ponjavic et al.
Koar Chorozian et al.
Background: Fungal AA9 lytic polysaccharide monooxygenases (LPMOs) play a central role in oxidative cellulose degradation and are key contributors to biomass conversion. While widely distributed in fungal genomes, many LP...
Iron accumulation dynamics in Nostoc sp. PCC 7120: extent of biosorption in batch and continuous reactors [0.03%]
鱼腥藻Nostoc sp. PCC 7120中铁的累积动力学:批量和连续反应器中的生物吸附范围
Veronica Lucato,Giulia Mazzola,Fengzheng Gao et al.
Veronica Lucato et al.
Background: Microalgae have recently gained attention for their ability to incorporate iron into organic molecules, potentially enhancing bioavailability and mitigating associated risks, suggesting a promising role in the...
Kinetic modeling of multiple-strain artificial consortium to improve fengycin production of Bacillus subtilis [0.03%]
芽孢杆菌菌群动力学建模以提高聚嘧啶素的生产能力
Shi-Long Jin,Si-Yu Wei,Geng-Rong Gao et al.
Shi-Long Jin et al.
Background: Artificial microbial consortium has been widely employed to improve the production of fengycin, a natural lipopeptide. Kinetic models are essential for understanding and predicting the dynamic behavior of meta...
There is an "I" in team: individual improvements in supercharged cellulase cocktail facilitates cooperative cellulose degradation [0.03%]
团队中有个“我”:个体改进的超级木聚糖酶鸡尾酒促进协作式纤维素降解
Antonio DeChellis,Samantha Shimabukuro,Sumay Trivedi et al.
Antonio DeChellis et al.
Lignocellulosic biomass is an abundant renewable carbon source for biofuel production, but its conversion to fermentable sugars is hindered by poor cellulase activity on highly crystalline and insoluble cellulose. While pretreatment makes b...
Integrated omics analysis of the cellulose co-degradation network of Chaetomium thermophilum [0.03%]
解酯柄袋霉共降解网络的整合组学分析
Xinran Yu,Su Ma,Xiuyun Wu et al.
Xinran Yu et al.
Background: Efficient degradation of cellulose is a key bottleneck in the industrialization of biofuels. While fungi achieve substrate conversion through precise regulation of cellulase systems, the systematic mechanisms ...