Structural characterization and directed evolution of a novel acetyl xylan esterase reveals thermostability determinants of the carbohydrate esterase 7 family

20 Apr 2018

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http://hdl.handle.net/2263/64669

Authors:	Adesioye, Fiyinfoluwa Adenike, Makhalanyane, Thulani P., Vikram, Surendra, Sewell, Bryan T., Schubert, Wolf-Dieter, Cowan, Don A.
Institution:	University of Pretoria
Keywords:	X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability, X-ray crystallography, Structural characterization, Single-point mutation, Salt concentration, Metagenomics, Directed evolution, Catalytic efficiencies, Biosynthesis, Carbohydrates, Catalyst activity, Cloning, Crystal structure, Efficiency, Enzymes, Esters, Genes, Sodium compounds, Thermodynamic stability, Acetyl xylan esterase (AcXE), Carbohydrate esterase 7 (CE7), Sequence-based metagenomics, Thermal stability