Streptomyces shaoguanensis sp. nov.: elucidating the mechanisms of efficient chicken feather degradation and its potential for biofertilizer development [0.03%]
芽孢链霉菌邵阳亚种(Streptomyces shaoguanensis sp. nov.):高效降解鸡羽毛及生物肥料开发的潜力与机制研究
Di Zhou,Weibin Zheng,Yijie Li et al.
Di Zhou et al.
Background: Feather waste, a byproduct of the poultry industry, remains underutilized due to its recalcitrant nature. While microbial conversion holds substantial potential, the scarcity of high-efficiency degrading strai...
Novel transcription factor regulating cellulase expression and growth improvement in cellulolytic fungi [0.03%]
一种调控纤维素降解真菌纤维素酶表达和生长的新型转录因子
Chunying Li,Shijia Dong,Mingjuan Cui et al.
Chunying Li et al.
Background: Talaromyces sp., as powerful cellulolytic fungi, display a nearly complete enzymatic system, which exhibits a complex regulatory system involving multiple transcription factors to control the expression of cel...
Long-term adaptive laboratory evolution of Saccharomyces cerevisiae for high-titer lactic acid production at low pH [0.03%]
长期适应性实验室进化产生耐酸乳酸的酵母菌株
Martin Altvater,Irene Tomico-Cuenca,Diethard Mattanovich et al.
Martin Altvater et al.
Background: Lactic acid is a highly versatile molecule whose increasing demand across the polymer, food, pharmaceutical, chemical, and cosmetics industries underscores its industrial and economic significance. Currently, ...
Innovative fungal bioagents: producing siderophores, IAA, and HCN to support plants under salinity stress and combat microbial plant pathogens [0.03%]
创新的真菌生物制剂:在盐胁迫下产生铁载体、IAA和HCN以支持植物并对抗微生物病原体
Noura Al-Sissi,Mohamed H Yassin,Radwan Khalil et al.
Noura Al-Sissi et al.
Salinity stress is a major environmental problem affecting agricultural productivity worldwide. Bioagents such as plant growth-promoting fungi (PGPF) are gained increasing attention to improve plant growth and resilience to this problem. Th...
Repurposing the Sb(III)-specific efflux and sequestration system (ant operon) to mitigate antimonite cross-talk in ArsR-based bacterial arsenite sensors [0.03%]
利用基于ArsR的细菌砷化物传感器重新配置三价锑特异性外排和储存系统(抗性操纵子)以减轻低浓度下三价锑对细菌的影响
Jingwen Ling,Yan Guo,Mingqi Liu et al.
Jingwen Ling et al.
Background: ArsR-based whole-cell biosensors offer sensitive colorimetric detection of arsenite [As(III)], yet their broad reactivity toward Group 15 metalloids-especially antimonite [Sb(III)]-limits field specificity. Th...
Improving succinic acid production by tuning polysulfides metabolism in Yarrowia lipolytica [0.03%]
通过调节吸硫代谢工程化改年轻枝芽孢酵母提高丁二酸产量
Xiaokun Zhang,Zhiyong Cui,Yongzhen Xia et al.
Xiaokun Zhang et al.
Backgroud: Succinic acid (SA) is a significant C4-dicarboxylic acid with broad applications in the food, chemical, and pharmaceutical industries. In microbial SA production, Yarrowia lipolytica shows great potential. Poly...
Genetic tools for engineering Zymomonas mobilis, Cereibacter sphaeroides and Novosphingobium aromaticivorans to improve production of bioenergy compounds [0.03%]
用于改造Zymomonas mobilis、Cereibacter sphaeroides和Novosphingobium aromaticivorans以提高生物能源化合物产量的基因工具
Shikha Mishra,Vishwajit Kumar,Jyotsna Misra et al.
Shikha Mishra et al.
Limited genetic tools for non-model bacteria are one of the limiting factors for genetic studies. This review compiles genetic tools used for three non-model alpha-proteobacteria, such as Zymomonas mobilis, Cereibacter (Rhodobacter) sphaero...
Biocatalytic cascade for the synthesis of methylphosphonate from phosphoenolpyruvate [0.03%]
以烯醇式丙酮酸磷酸为原料合成甲基膦酸的生物催化级联反应
Qi Zhang,Yiming Zhang,Bobo Wang et al.
Qi Zhang et al.
Background: Methylphosphonate (Mpn), a building block for complex organophosphonate, is utilized in pharmaceuticals, agriculture, and chemical industries. It also serves as a critical substrate for resolving the methane p...
Correction: Innovative approaches in bioremediation: the role of halophilic microorganisms in mitigating hydrocarbons, toxic metals, and microplastics in hypersaline environments [0.03%]
订正:生物修复的创新方法:极端咸水环境中卤化微生物缓解烃类、有毒金属和微塑料的作用
Zeinab Rezaei,Mohammad Ali Amoozegar,Hamid Moghimi
Zeinab Rezaei
Published Erratum
Microbial cell factories. 2025 Nov 14;24(1):236. DOI:10.1186/s12934-025-02854-2 2025
Polystyrene and low-density polyethylene degradation by Bacillus cereus L1 isolated from plastic contaminated wastewater [0.03%]
来自受塑料污染污水的枯草芽孢杆菌L1的聚苯乙烯和低密度聚乙烯降解作用
Syeda Saira Iqbal,Yasir Rehman,Muhammad Afzaal et al.
Syeda Saira Iqbal et al.
Background: The environmental disruption caused by enduring pollution has been aggravated by the excessive use of low-density polyethylene (LDPE) and polystyrene (PS) plastics due to their non-biodegradable composition. M...