Optimizing Phaeodactylum tricornutum cultivation: integrated strategies for enhancing biomass, lipid, and fucoxanthin production [0.03%]
三角褐指藻培养优化:增强生物量、脂质和叶绿素a生产的一体化策略
Background: Phaeodactylum tricornutum is a versatile marine microalga renowned for its high-value metabolite production, including omega-3 fatty acids and fucoxanthin, with emerging potential for integrated biorefinery ap...
Compatible traits of oleaginous Mucoromycota fungi for lignocellulose-based simultaneous saccharification and fermentation [0.03%]
用于木质纤维素基的同时糖化发酵的产油Mucoromycota真菌的兼容性状
Background: Mucoromycota fungi are promising for the production of second-generation biofuel from single-cell oils (SCOs) using lignocellulose biomass. Despite the lack of enzymatic capability for efficiently degrading li...
Insight into the role of antioxidant in microbial lignin degradation: Ascorbic acid as a fortifier of lignin-degrading enzymes [0.03%]
抗氧化剂在微生物降解木质素中作用的研究述评——抗坏血酸作为提高木质素降解酶活性的稳定剂
Background: Microbial-driven lignin depolymerization has emerged as a promising approach for lignin degradation. However, this process is hindered by the limited activity of lignin-degrading enzymes. Antioxidants are cruc...
Synergetic effect of fungal pretreatment and lignin modification on delignification and saccharification: a case study of a natural lignin mutant in mulberry [0.03%]
真菌预处理和木质素修饰协同作用对脱木质素和糖化的研究——以桑树天然木质素突变体为例
Background: Fungal pretreatment for partial separation of lignocellulosic components may reduce lignocellulose recalcitrance during the production of biofuels and biochemicals. Quantitative and qualitative modification of...