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Towards new enzymes: protein engineering versus bioinformatic studies
Marinus Gerardus Casteleijn
Not published at VTT
University of Oulu
Research output
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Thesis
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Dissertation
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INIS
enzymes
100%
protein engineering
100%
uridine
100%
phosphorylases
100%
isomerases
90%
tools
18%
engineering
18%
proteins
18%
production
18%
optimization
18%
kinetics
18%
closures
18%
mutants
18%
comparative evaluations
9%
libraries
9%
design
9%
enzyme activity
9%
stability
9%
genes
9%
labelling
9%
nmr
9%
nitrogen 15
9%
isotopes
9%
mining
9%
instability
9%
machinery
9%
glycolysis
9%
pyrimidines
9%
Keyphrases
Protein Engineering
100%
Bioinformatics Study
100%
Thymidine Phosphorylase
100%
Triosephosphate Isomerase
90%
EnBase
27%
High-throughput
18%
Metagenomics
18%
Terminal End
18%
Enzyme Activity
9%
Archaebacteria
9%
Overexpression
9%
Process Optimization
9%
Rational Design
9%
Engineering Studies
9%
Bioinformatics
9%
Catalytic Machinery
9%
Design Approach
9%
Process Development
9%
Genome Mining
9%
Enzyme Stability
9%
Recombinant Protein Production
9%
Hexamer
9%
Engineering Aspects
9%
Expression Library
9%
Truncated Version
9%
Cell Lysate
9%
High-throughput Expression
9%
Bioinformatics Tools
9%
Kinetic Method
9%
PhD Studies
9%
Pyrimidine Salvage Pathway
9%
High-throughput Optimization
9%
15N Isotope Labeling
9%
Thermostable Protein
9%
Glycolysis Pathway
9%
Catalytic Loop
9%
Biochemistry, Genetics and Molecular Biology
Enzyme
100%
Protein Engineering
100%
Bioinformatics
100%
Triosephosphate Isomerase
90%
N-Terminus
18%
Metagenomics
18%
Cell Lysate
9%
Enzyme Activity
9%
C-Terminus
9%
Process Optimization
9%
Recombinant Protein
9%
Archaeon
9%
Isotope Labeling
9%
Process Development
9%
Enzyme Stability
9%
High Throughput Expression
9%
Immunology and Microbiology
Protein Engineering
100%
Bioinformatics
100%
Metagenomics
40%
Amino Terminal Sequence
40%
Enzyme Activity
20%
Carboxy Terminal Sequence
20%
Archaeon
20%
Enzyme Stability
20%
Process Optimization
20%
Process Development
20%
Cell Lysate
20%
Isotope Labeling
20%
High Throughput Expression
20%
Pharmacology, Toxicology and Pharmaceutical Science
Uridine Phosphorylase
100%
Triosephosphate Isomerase
90%
Archaeon
9%
Nitrogen 15
9%
Recombinant Protein
9%
Pyrimidine
9%
Food Science
High Throughput Expression
100%