Keyphrases
Comparative Analysis
100%
Kinetic Mechanism
100%
Saccharomyces Cerevisiae
100%
Peptide Substrate
100%
N-myristoyltransferase
100%
Substrate Specificity
100%
Myristoyl
100%
Amino
33%
Tyrosine Kinase
16%
Signal Transduction Pathway
16%
Enzyme Inhibitors
16%
Cellular Proteins
16%
Terminal Sequence
16%
Non-structural Protein
16%
Reovirus
16%
Pool Size
16%
Acyl-CoA
16%
Structural Proteins
16%
Covariation
16%
Myristate
16%
Two-species
16%
Retrovirus
16%
N-myristoylation
16%
Apoenzyme
16%
Octapeptide
16%
Amino Acid Substitution
16%
Initial Velocity
16%
Catalytic Cycle
16%
Ping-pong Effect
16%
Peptide Recognition
16%
Aminopeptidase Activity
16%
Inhibition Studies
16%
Monomeric Enzymes
16%
Enzyme Kinetics
16%
Specific Enzymes
16%
Non-competitive Inhibitor
16%
Picornavirus
16%
Erythroleukemia Cells
16%
Product Inhibition
16%
Hepadnavirus
16%
Double-reciprocal Plot
16%
Double Displacement
16%
Biochemistry, Genetics and Molecular Biology
Kinetics
100%
Saccharomyces cerevisiae
100%
Enzyme Specificity
100%
G Protein
100%
N-Terminus
66%
Enzyme Kinetics
66%
Tyrosine
33%
Enzyme
33%
Signal Transduction
33%
Acyl-CoA
33%
Enzyme Inhibitor
33%
Product Inhibition
33%
Transferase
33%
Myristic Acid
33%
Myristoylation
33%
Amino Acid Substitution
33%
Methionyl Aminopeptidase
33%
Retrovirus
33%
Picornaviridae
33%
Hepadnaviridae
33%
Neuroscience
Saccharomyces cerevisiae
100%
Enzyme Specificity
100%
Protein N Myristoyltransferase
100%
Amino Terminal Sequence
66%
Enzyme Kinetics
66%
Signal Transduction Pathway
33%
Cell Protein
33%
Enzyme Inhibitor
33%
Cell Line
33%
G Protein
33%
Negative Feedback
33%
Myristic Acid
33%
Acyl Coenzyme A
33%
Transferase
33%
Octapeptide
33%
Amino Acid Substitution
33%
Reoviruses
33%
Methionyl Aminopeptidase
33%
Apoenzyme
33%
Picornaviridae
33%
Myristoylation
33%
Agricultural and Biological Sciences
Saccharomyces cerevisiae
100%
Substrate Specificity
100%
G Protein
100%
N-Terminus
66%
Enzyme Kinetics
66%
Cell Line
33%
Acyl-CoA
33%
Myristic Acid
33%
Transferase
33%
Amino Acid Substitution
33%
Retroviridae
33%
Hepadnaviridae
33%
Picornaviridae
33%
Aminopeptidase
33%
Signal Transduction
33%
Myristoylation
33%
Immunology and Microbiology
Saccharomyces cerevisiae
100%
Kinetics
100%
Enzyme Specificity
100%
Amino Terminal Sequence
66%
Enzyme Kinetics
66%
Cell Line
33%
Signal Transduction
33%
Aminopeptidase
33%
Negative Feedback
33%
Retrovirus
33%
Amino Acid Substitution
33%
Myristylation
33%
Picornaviridae
33%
Erythroleukemia Cell
33%
Hepadnaviridae
33%