Paper
Heterologous synthesis of 4-ethylphenol in engineered Escherichia coli
Published Sep 1, 2020 · Ying Zhang, L. Long, Shaojun Ding
Process Biochemistry
Q2 SJR score
4
Citations
0
Influential Citations
Abstract
Abstract hidden due to publisher request; this does not indicate any issues with the research. Click the full text link above to read the abstract and view the original source.
Study Snapshot
This study successfully constructed an artificial biosynthetic pathway in Escherichia coli for producing 4-ethylphenol from simple sugars, potentially paving the way for large-scale industrial applications.
PopulationOlder adults (50-71 years)
Sample size24
MethodsObservational
OutcomesBody Mass Index projections
ResultsSocial networks mitigate obesity in older groups.
Full text analysis coming soon...
References
Expression and Characterization of Carotenoid Cleavage Oxygenases From Herbaspirillum seropedicae and Rhodobacteraceae bacterium Capable of Biotransforming Isoeugenol and 4-Vinylguaiacol to Vanillin
HsCCO and RbCCO from Herbaspirillum seropedicae and Rhodobacteraceae bacteria effectively convert isoeugenol and 4-vinylguaiacol to vanillin, with high molar conversion yields and stability.
2019·15citations·Zichun Han et al.·Frontiers in Microbiology
Frontiers in Microbiology
Bioproduction of High-Concentration 4-Vinylguaiacol Using Whole-Cell Catalysis Harboring an Organic Solvent-Tolerant Phenolic Acid Decarboxylase From Bacillus atrophaeus
Bacillus atrophaeus-derived BaPAD phenolic acid decarboxylase effectively produces high-concentration 4-vinylguaiacol from ferulic acid, with a 98.9% conversion yield and 18.3 g/L/h productivity in 13 hours.
2019·25citations·Lulu Li et al.·Frontiers in Microbiology
Frontiers in Microbiology
Enhanced production of styrene by engineered Escherichia coli and in situ product recovery (ISPR) with an organic solvent
Engineered Escherichia coli strains can produce high titers of styrene in both flask and fed-batch cultivation, offering a promising approach for economic and industrial production of styrene in a biological platform.
2019·26citations·Kyungsoo Lee et al.·Microbial Cell Factories
Microbial Cell Factories
Synthesis of high-performance jet fuel blends from biomass-derived 4-ethylphenol and phenylmethanol
Biomass-derived 4-ethylphenol and phenylmethanol can produce high-density, cryogenic jet fuel blends with potential for practical applications.
2018·26citations·Zheng Li et al.·Chemical Engineering Science
Chemical Engineering Science
Escherichia coli as a host for metabolic engineering.
E. coli is an ideal host for metabolic engineering due to its genetic tractability, favorable growth conditions, and well-characterized biochemistry and physiology, making it an ideal platform for industrially viable productions.
2018·269citations·Sammy Pontrelli et al.·Metabolic engineering
Metabolic engineering
Citations
Analysis strategy of contamination source using chemical fingerprint information based on GC-HRMS: A case study of landfill leachate.
GC-HRMS analysis of landfill leachate reveals common characteristics and distinct contamination signatures, aiding in environmental pollution management.
2024·0citations·Qian Zhang et al.·Water research
Water research
From Lignin to Value-Added Pharmaceutical Intermediates Based on a Benzylic Oxidation Method with O2.
This study presents a catalytic strategy for converting lignin into pharmaceutical intermediates using a green benzylic oxidation method with O2, resulting in efficient utilization and green acquisition of pharmaceutical intermediates.
2024·2citations·Heng Zhang et al.·Organic letters
Organic letters
Control algorithms and strategies of feeding for fed-batch fermentation of Escherichia coli: a review of 40 years of experience
Fed-batch fermentation of Escherichia coli can produce high-concentration recombinant proteins and enzymes, but proper feeding strategies are crucial for productivity, efficiency, and product concentration.
2021·9citations·M. Mahmoodi et al.·Preparative Biochemistry & Biotechnology
Preparative Biochemistry & Biotechnology