An emerging simple and effective approach to increase the productivity of thraustochytrids microbial lipids by regulating glycolysis process and triacylglycerols' decomposition [0.03%]
一种通过调节糖酵解过程和三酰甘油分解来提高throscytrids微生物脂质生产力的简便有效方法
Wang Ma,Yu-Zhou Wang,Fang-Tong Nong et al.
Wang Ma et al.
Background: The oleaginous microorganism Schizochytrium sp. is widely used in scientific research and commercial lipid production processes. However, low glucose-to-lipid conversion rate (GLCR) and low lipid productivity ...
Down-regulation of OsMYB103L distinctively alters beta-1,4-glucan polymerization and cellulose microfibers assembly for enhanced biomass enzymatic saccharification in rice [0.03%]
OsMYB103L表达降低通过减少纤维素微纤丝组装提高水稻生物量的酶解糖化率
Leiming Wu,Mingliang Zhang,Ran Zhang et al.
Leiming Wu et al.
Background: As a major component of plant cell walls, cellulose provides the most abundant biomass resource convertible for biofuels. Since cellulose crystallinity and polymerization have been characterized as two major f...
Cocktail biosynthesis of triacylglycerol by rational modulation of diacylglycerol acyltransferases in industrial oleaginous Aurantiochytrium [0.03%]
通过理性调节工业产油藻菌属中二酰基甘油酰基转移酶进行三酰基甘油鸡尾酒生物合成
Chuanzeng Lan,Sen Wang,Huidan Zhang et al.
Chuanzeng Lan et al.
Background: Triacylglycerol (TAG) is an important storage lipid in organisms, depending on the degree of unsaturation of fatty acid molecules attached to glycerol; it is usually used as the feedstock for nutrition or biod...
Carbon catabolite repression involves physical interaction of the transcription factor CRE1/CreA and the Tup1-Cyc8 complex in Penicillium oxalicum and Trichoderma reesei [0.03%]
青霉和曲霉中转录因子CRE1/Crea与Tup1-Cyc8复合体的物理相互作用产生碳源分解代谢阻遏效应
Yueyan Hu,Mengxue Li,Zhongjiao Liu et al.
Yueyan Hu et al.
Background: Cellulolytic enzyme production in filamentous fungi requires a release from carbon catabolite repression (CCR). The protein CRE1/CreA (CRE = catabolite responsive element) is a key transcription factor (TF) th...
Sasa Liu,Mengyao Zhang,Yuyao Ren et al.
Sasa Liu et al.
Background: Limonene is a widely used monoterpene in the production of food, pharmaceuticals, biofuels, etc. The objective of this work was to engineer Rhodosporidium toruloides as a cell factory for the production of lim...
Development of a consortium-based microbial agent beneficial to composting of distilled grain waste for Pleurotus ostreatus cultivation [0.03%]
基于联合体的酿酒谷物废弃物堆肥促生微生物剂的开发研究
Sibao Wu,Rongrong Zhou,Yuting Ma et al.
Sibao Wu et al.
Background: Pleurotus ostreatus is an edible mushroom popularly cultivated worldwide. Distilled grain waste (DGW) is a potential substrate for P. ostreatus cultivation. However, components in DGW restrict P. ostreatus myc...
Protein acetylation regulates xylose metabolism during adaptation of Saccharomyces cerevisiae [0.03%]
蛋白质乙酰化调控酿酒酵母适应性利用木糖的过程中作用机制研究
Yong-Shui Tan,Li Wang,Ying-Ying Wang et al.
Yong-Shui Tan et al.
Background: As the second most abundant polysaccharide in nature, hemicellulose can be degraded to xylose as the feedstock for bioconversion to fuels and chemicals. To enhance xylose conversion, the engineered Saccharomyc...
Combinatorial use of environmental stresses and genetic engineering to increase ethanol titres in cyanobacteria [0.03%]
利用环境压力和遗传工程的组合提高蓝藻中乙醇滴度
Fraser Andrews,Matthew Faulkner,Helen S Toogood et al.
Fraser Andrews et al.
Current industrial bioethanol production by yeast through fermentation generates carbon dioxide. Carbon neutral bioethanol production by cyanobacteria uses biological fixation (photosynthesis) of carbon dioxide or other waste inorganic carb...
QTL mapping of a Brazilian bioethanol strain links the cell wall protein-encoding gene GAS1 to low pH tolerance in S. cerevisiae [0.03%]
巴西生物乙醇菌株的QTL定位将编码细胞壁蛋白的基因GAS1与S.cerevisiae的低pH耐受性联系起来
Alessandro L V Coradini,Fellipe da Silveira Bezerra de Mello,Monique Furlan et al.
Alessandro L V Coradini et al.
Background: Saccharomyces cerevisiae is largely applied in many biotechnological processes, from traditional food and beverage industries to modern biofuel and biochemicals factories. During the fermentation process, yeas...
Plastidial wax ester biosynthesis as a tool to synthesize shorter and more saturated wax esters [0.03%]
叶绿体蜡酯生物合成作为合成更短和更饱和蜡酯的工具
Katharina Vollheyde,Ellen Hornung,Cornelia Herrfurth et al.
Katharina Vollheyde et al.
Background: Wax esters (WE) are neutral lipids that consist of a fatty alcohol esterified to a fatty acid. WE are valuable feedstocks in industry for producing lubricants, coatings, and cosmetics. They can be produced che...