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Galactokinases: Potential Biotechnological Applications as Biocatalysts
Helena Kristiansson, David Timson
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peer-review
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Keyphrases
Escherichia Coli
100%
Phosphorylation
100%
Biotechnological Applications
100%
Galactokinase
100%
Biocatalyst
100%
Similarity Experiment
50%
Tyrosine
50%
Arginine
50%
Lysine
50%
Lactococcus Lactis
50%
Tryptophan
50%
Active Sites
50%
Cysteine
50%
Histidine
50%
Galactose
50%
Catalytic Potential
50%
Phosphomevalonate Kinase
50%
Leloir Pathway
50%
D-galactose (D-gal)
50%
Biotechnological Potential
50%
Monosaccharides
50%
Substrate Range
50%
ATP-dependent
50%
Human Enzymes
50%
Directed Evolution
50%
Polypeptide Chain
50%
Arabinose
50%
Galactose Catabolism
50%
L-sugars
50%
Homoserine Kinase
50%
Mevalonate Kinase
50%
Kinase Family
50%
Tyrosine Residue
50%
Site Influence
50%
Complex Molecules
50%
Evolution Strategy
50%
D-sugars
50%
Aminoglycoside Antibiotics
50%
Catalytic Promiscuity
50%
Neuroscience
Galactose
100%
Kinase
66%
Galactokinase
66%
Arginine
33%
Adenosine Triphosphate
33%
Carbohydrates
33%
Tryptophan
33%
Serine
33%
Lysine
33%
Polypeptide
33%
Tyrosine
33%
Arabinose
33%
Monosaccharide
33%
Mevalonate Kinase
33%
Phosphomevalonate Kinase
33%
Homoserine Kinase
33%
Aminoglycoside
33%
Cysteine
33%
Histidine
33%
Biochemistry, Genetics and Molecular Biology
Enzyme
100%
Biocatalyst
100%
Kinase
66%
Phosphotransferase
50%
Galactose
50%
Escherichia coli
33%
Tyrosine
33%
Galactokinase
33%
Arginine
16%
Adenosine Triphosphate
16%
Lysine
16%
Tryptophan
16%
Cysteine
16%
Monosaccharide
16%
Active Site
16%
Leloir Pathway
16%
Serine
16%
Histidine
16%
Lactococcus Lactis
16%
Arabinose
16%
Mevalonate Kinase
16%
Aminoglycoside Antibiotics
16%