Identification of levoglucosan degradation pathways in bacteria and sequence similarity network analysis

Identification of levoglucosan degradation pathways in bacteria and sequence similarity network analysis

Publications - Scott lab

Inhibitor tolerance and bioethanol fermentability of levoglucosan-utilizing Escherichia coli were enhanced by overexpression of stress-responsive gene ycfR: The proteomics-guided metabolic engineering - ScienceDirect

Conversion of levoglucosan into glucose by the coordination of four enzymes through oxidation, elimination, hydration, and reduction

Identification of levoglucosan degradation pathways in bacteria and sequence similarity network analysis

Archives of Microbiology

Dr Nichollas Scott

Omics analysis coupled with gene editing revealed potential transporters and regulators related to levoglucosan metabolism efficiency of the engineered Escherichia coli, Biotechnology for Biofuels and Bioproducts

Archives of Microbiology

PDF) ChemInform Abstract: Pathways for Degradation of Lignin in Bacteria and Fungi

Inhibitor tolerance and bioethanol fermentability of levoglucosan-utilizing Escherichia coli were enhanced by overexpression of stress-responsive gene ycfR: The proteomics-guided metabolic engineering - ScienceDirect

Isolation and Characterization of Levoglucosan-Metabolizing Bacteria