Insights into the stability and substrate specificity of the E. coli aerobic β-oxidation trifunctional enzyme complex
Author:
Funder
Academy of Finland
Publisher
Elsevier BV
Subject
Structural Biology
Reference55 articles.
1. Understanding the molecular mechanism of substrate channeling and domain communication in protozoal bifunctional TS-DHFR;Anderson;Protein Eng. Des. Sel.,2017
2. The multicatalytic compartment of propionyl-CoA synthase sequesters a toxic metabolite; 30374166;Bernhardsgrütter;Nature Chemical Biology,2018
3. Fatty Acid Oxidation Complex from Escherichia coli;Binstock;Methods Enzymol.,1981
4. Molecular and biochemical analyses of fatty acid transport, metabolism, and gene regulation in Escherichia coli;Black;Biochim. Biophys. Acta Lipids Lipid Metab.,1994
5. A new Escherichia coli metabolic competency: Growth on fatty acids by a novel anaerobic b-oxidation pathway;Campbell;Mol. Microbiol.,2003
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