When <i>pull</i>ulanase needs a little push: MyoAAV capsids enhance gene therapy for GSD IIIa. [PDF]
Mol Ther Methods Clin DevVenigalla S, Pacak CA.
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Approaches for regulating enzyme activities: Recent advances in experiment and computation. [PDF]
Curr Opin Struct BiolCui Q.
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Design and evolution of artificial enzyme with in-situ biosynthesized non-canonical amino acid. [PDF]
Nat CommunHuang W +8 more
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Towards a Research Programme Aiming at Causes and Consequences of Reticulate Evolution. [PDF]
Biology (Basel)Oberprieler C.
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Identification and application of herbicide-resistant 4-hydroxyphenylpyruvate dioxygenase (HPPD) alleles via directed evolution. [PDF]
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Directed Evolution of Branched-Chain α-Keto Acid Decarboxylase for 3-Hydroxypropionic Acid Production in <i>Escherichia coli</i> via Oxaloacetate. [PDF]
ACS Synth BiolWang C, Olsthoorn RCL, de Groot HJM.
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We propose the existence of a relationship of stereochemical complementarity between gene sequences that code for interacting components: nucleic acid-nucleic acid, protein-protein and protein-nucleic acid. Such a relationship would impose evolutionary constraints on the DNA sequences themselves, thus retaining these sequences and governing the ...
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Directed molecular evolution in plant improvement
Current Opinion in Plant Biology, 2001Directed molecular evolution is a powerful tool to evolve genes with commercial applications. Its most common application is to evolve enzymes with improved kinetics, altered substrate or product specificities, or improved function in different cellular environments. The technique is beginning to be applied to goals relevant to agriculture.
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Directed Molecular Evolution of Cytochrome c Peroxidase
Biochemistry, 2000Cytochrome c peroxidase (CCP) from Saccharomyces cerevisiae was subjected to directed molecular evolution to generate mutants with increased activity against the classical peroxidase substrate guaiacol, thus changing the substrate specificity of CCP from the protein cytochrome c to a small organic molecule.
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