Tapping the microalgal potential: genetic precision and stress-induction for enhanced astaxanthin and biofuel production [0.03%]
挖掘微藻的潜在能力:遗传精确性和压力诱导增强虾青素和生物燃料生产
Ankush Yadav,Suhani Sharma,Nitesh et al.
Ankush Yadav et al.
Population growth throughout the world has led to increased pollution and overconsumption of fossil resources. Microalgae are increasingly recognized as sustainable biofactories for producing lipids and astaxanthin, two commercially signifi...
Jochem R Nielsen,Joseph Kennerley,Wei E Huang
Jochem R Nielsen
Enzymes capable of catalysing the production of hydrocarbons hold promise for sustainable fuel synthesis. However, the native activities of these enzymes are often insufficient for their exploitation in industrial bioprocesses. Enzyme engin...
A model for tobacco growing area classification based on time series features of thermogravimetric analysis [0.03%]
基于热重分析时间序列特征的烟草产地分类模型研究
Jiaxu Xia,Yunong Tian,Xianwei Hao et al.
Jiaxu Xia et al.
Biomass is greatly influenced by geographic location, soil composition, environment, and climate, making the efficient and accurate identification of growing areas highly significant. This study proposes a classification model for tobacco g...
The multipurpose cell factory Aspergillus niger can be engineered to produce hydroxylated collagen [0.03%]
里氏木霉可以被改造生产羟基化胶原蛋白
Tom Morris,Friederike Gerstl,Sascha Jung et al.
Tom Morris et al.
Advances in tissue printing and wound healing necessitate a continuous global supply of collagen. Microbial systems are highly desirable to meet these demands as recombinant collagenous proteins can be guaranteed as free from animal viruses...
Transcriptome analysis of Aspergillus oryzae RIB40 under chemical stress reveals mechanisms of adaptation to fungistatic compounds of lignocellulosic side streams [0.03%]
曲霉适应木质素纤维素副产物中抗真菌化合物的转录组分析
Miika-Erik Korpioja,Emmi Sveholm,Adiphol Dilokpimol et al.
Miika-Erik Korpioja et al.
Background: Industrial lignocellulosic side streams are considered an attractive carbon source for the cultivation of biotechnologically important fungi, although the presence of toxic pretreatment by-products is a major ...
Producing mixed linked xylooligosaccharides from red algae biomass through single-step enzymatic hydrolysis [0.03%]
通过单步酶水解法从红藻生物质中制备混合链接的倍半糖低聚物
Michelle Teune,Christoph Suster,Yannick Wolf et al.
Michelle Teune et al.
Background: The red alga Palmaria palmata is a rich source of sugar compounds, particularly mixed-linkage xylans present in the cell walls of the algae. In contrast to their terrestrial lignocellulosic counterparts, these...
Metabolic engineering of Saccharomyces cerevisiae for co-production of ethanol and 3-methyl-1-butanol from sugarcane molasses [0.03%]
利用糖蜜共生产乙醇和3-甲基-1-丁醇的酿酒酵母代谢工程
Sasha Yogiswara,Jonas Rombout,Giovanni Micharikopoulos et al.
Sasha Yogiswara et al.
3-Methyl-1-butanol (3MB) is a promising renewable solvent, drop-in fuel, and precursor for various industrial products, including flavors, fragrances, and surfactants. Due to the myriad of intertwined biosynthetic pathways that share metabo...
Biorefinery for a circular carbon paradigm: process benefits to the use of dryland CAM crops for anaerobic volatile fatty acid production [0.03%]
基于干地区的CAM作物厌氧挥发脂肪酸生产的生物精炼:循环经济碳范式的工艺优势
Nicholas A Tenci,Nichola Austen,Laura K Martin et al.
Nicholas A Tenci et al.
Background: Anaerobic digestion (AD) or acidogenic fermentation (AF) of biomass can generate either biogas fuel or C2 ‒ C8 volatile fatty acids (VFAs) as feedstocks for synthesis of other petrochemical products. Typical ...
Directed evolution of α-ketoisovalerate decarboxylase for improved isobutanol and 3-methyl-1-butanol production in cyanobacteria [0.03%]
通过定向进化优化α-酮异戊酸脱羧酶以提高蓝藻中异丁醇和3-甲基-1-丁醇的产量
Hao Xie,Afshan Begum,Laura H Gunn et al.
Hao Xie et al.
Background: Cyanobacteria are promising platforms for metabolic engineering to convert carbon dioxide into valuable fuels and chemicals, addressing both energy demands and global climate change. Among various fuels and ch...
Structure-function relationships in unspecific peroxygenases revealed by a comparative study of their action on the phenolic lignin monomer 4-propylguaiacol [0.03%]
通过非特异性过氧化物酶作用于酚类木质素单体4-丙基桂皮醇的研究揭示其结构功能关系
Marta Barros-Reguera,Esteban Lopez-Tavera,Gabriela C Schröder et al.
Marta Barros-Reguera et al.
Unspecific peroxygenases (UPOs) are versatile enzymes capable of oxidizing a broad range of substrates, using hydrogen peroxide as the sole co-substrate. In this study, UPOs were evaluated for their potential in the selective oxyfunctionali...