Computational design gains momentum in enzyme catalysis engineering.
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Computer aided enzyme design and catalytic conceptsSynthetic biology outside the cell: linking computational tools to cell-free systemsThe Framework of Computational Protein Design.Achievements and Challenges in Computational Protein Design.Computationally designed libraries for rapid enzyme stabilization.Computational library design for increasing haloalkane dehalogenase stability.Enantioselective enzymes by computational design and in silico screening.Computational strategies for the design of new enzymatic functionsOvercoming an optimization plateau in the directed evolution of highly efficient nerve agent bioscavengers.Extending enzyme molecular recognition with an expanded amino acid alphabet.Casting epPCR (cepPCR): A simple random mutagenesis method to generate high quality mutant libraries.Synthetic biology for the directed evolution of protein biocatalysts: navigating sequence space intelligently.Exploring the Development of Ground-State Destabilization and Transition-State Stabilization in Two Directed Evolution Paths of Kemp Eliminases.Rational and Semirational Protein Design.Bioinformatic analysis of the fold type I PLP-dependent enzymes reveals determinants of reaction specificity in l-threonine aldolase from Aeromonas jandaei.
P2860
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P2860
Computational design gains momentum in enzyme catalysis engineering.
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article científic
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article scientifique
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articol științific
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articolo scientifico
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artigo científico
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artigo científico
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artigo científico
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artikel ilmiah
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artículo científico
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name
Computational design gains momentum in enzyme catalysis engineering.
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type
label
Computational design gains momentum in enzyme catalysis engineering.
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prefLabel
Computational design gains momentum in enzyme catalysis engineering.
@en
P2860
P356
P1433
P1476
Computational design gains momentum in enzyme catalysis engineering.
@en
P2093
Dick B Janssen
Hein J Wijma
P2860
P304
P356
10.1111/FEBS.12324
P407
P577
2013-06-03T00:00:00Z