| scholarly article | Q13442814 |
| P50 | author | Douglas Kell | Q5301676 |
| Andrew Currin | Q57056747 | ||
| Nicholas J. Turner | Q37379956 | ||
| Neil Swainston | Q57056691 | ||
| P2093 | author name string | Jane Kwok | |
| Philip Day | |||
| Joanna C Sadler | |||
| Elizabeth L Bell | |||
| Maria Ababi | |||
| P2860 | cites work | Directed evolution drives the next generation of biocatalysts | Q21045409 |
| Protein Design by Directed Evolution | Q22065412 | ||
| Exploring protein fitness landscapes by directed evolution | Q24630945 | ||
| Directed evolution: an evolving and enabling synthetic biology tool | Q26823011 | ||
| The structure of monoamine oxidase from Aspergillus niger provides a molecular context for improvements in activity obtained by directed evolution | Q27652653 | ||
| The role of distant mutations and allosteric regulation on LovD active site dynamics | Q27683292 | ||
| Rational evolutionary design: the theory of in vitro protein evolution | Q28142227 | ||
| Strategy and success for the directed evolution of enzymes | Q28241113 | ||
| A chemo-enzymatic route to enantiomerically pure cyclic tertiary amines | Q28297333 | ||
| Computational method to reduce the search space for directed protein evolution | Q30660873 | ||
| Directed evolution of enzymes: new biocatalysts for asymmetric synthesis | Q31033591 | ||
| Deracemization of alpha-methylbenzylamine using an enzyme obtained by in vitro evolution | Q31107149 | ||
| Expanding the substrate scope of enzymes: combining mutations obtained by CASTing | Q33247423 | ||
| De novo proteins from binary-patterned combinatorial libraries | Q33256645 | ||
| Experimental rugged fitness landscape in protein sequence space | Q33267358 | ||
| Enzyme optimization: moving from blind evolution to statistical exploration of sequence-function space | Q33316623 | ||
| Addressing the numbers problem in directed evolution | Q33345289 | ||
| Construction of "small-intelligent" focused mutagenesis libraries using well-designed combinatorial degenerate primers | Q34188621 | ||
| Engineering the third wave of biocatalysis | Q34274077 | ||
| SynBioLGDB: a resource for experimentally validated logic gates in synthetic biology | Q35020543 | ||
| Directed Evolution: Past, Present and Future | Q35132236 | ||
| GeneGenie: optimized oligomer design for directed evolution | Q35159953 | ||
| Computational tools for designing smart libraries. | Q35211907 | ||
| A template-based mnemonic for monoamine oxidase (MAO-N) catalyzed reactions and its application to the chemo-enzymatic deracemisation of the alkaloid (±)-crispine A | Q58048802 | ||
| Hidden Conformations in Aspergillus niger Monoamine Oxidase are Key for Catalytic Efficiency | Q62514597 | ||
| Mapping the substrate scope of monoamine oxidase (MAO-N) as a synthetic tool for the enantioselective synthesis of chiral amines | Q88654652 | ||
| SpeedyGenes: an improved gene synthesis method for the efficient production of error-corrected, synthetic protein libraries for directed evolution | Q35222433 | ||
| Measuring the activity of protein variants on a large scale using deep mutational scanning | Q35234062 | ||
| A web-based tool for rational screening of mutants libraries using ProSAR. | Q35234516 | ||
| MDC-Analyzer-facilitated combinatorial strategy for improving the activity and stability of halohydrin dehalogenase from Agrobacterium radiobacter AD1. | Q35610519 | ||
| Improving enzyme properties: when are closer mutations better? | Q36113206 | ||
| SpeedyGenes: Exploiting an Improved Gene Synthesis Method for the Efficient Production of Synthetic Protein Libraries for Directed Evolution | Q36145664 | ||
| Navigating the protein fitness landscape with Gaussian processes | Q36545654 | ||
| Biophysical principles predict fitness landscapes of drug resistance. | Q36710493 | ||
| Local fitness landscape of the green fluorescent protein | Q37142510 | ||
| Structural and functional constraints in the evolution of protein families | Q37597886 | ||
| Synthesizing biomolecule-based Boolean logic gates | Q38092781 | ||
| Biocatalysis in organic chemistry and biotechnology: past, present, and future | Q38127725 | ||
| Topological features of rugged fitness landscapes in sequence space | Q38273398 | ||
| Synthetic biology for the directed evolution of protein biocatalysts: navigating sequence space intelligently | Q38287400 | ||
| Array-based evolution of DNA aptamers allows modelling of an explicit sequence-fitness landscape | Q38358691 | ||
| Directed evolution 2.0: improving and deciphering enzyme properties | Q38421409 | ||
| Computational tools for the evaluation of laboratory-engineered biocatalysts | Q38798703 | ||
| Enzymatic site-selectivity enabled by structure-guided directed evolution. | Q39179018 | ||
| A Retrosynthesis Approach for Biocatalysis in Organic Synthesis | Q39313150 | ||
| Synthetic circuits integrating logic and memory in living cells | Q40091404 | ||
| Deep mutational scanning: a highly parallel method to measure the effects of mutation on protein function | Q40662999 | ||
| The fitness landscape of a tRNA gene. | Q41787386 | ||
| A regio- and stereoselective ω-transaminase/monoamine oxidase cascade for the synthesis of chiral 2,5-disubstituted pyrrolidines | Q41870013 | ||
| Scientific discovery as a combinatorial optimisation problem: how best to navigate the landscape of possible experiments? | Q42135811 | ||
| The NK model of rugged fitness landscapes and its application to maturation of the immune response | Q42643980 | ||
| Binary patterning of polar and nonpolar amino acids in the sequences and structures of native proteins | Q42844475 | ||
| Strategies for the in vitro evolution of protein function: enzyme evolution by random recombination of improved sequences | Q46855416 | ||
| Biocatalysis enters a new era. | Q46912630 | ||
| Improving catalytic function by ProSAR-driven enzyme evolution | Q46928936 | ||
| DC-Analyzer-facilitated combinatorial strategy for rapid directed evolution of functional enzymes with multiple mutagenesis sites. | Q51030508 | ||
| Fancy footwork in the sequence space shuffle. | Q51250960 | ||
| Protein design by binary patterning of polar and nonpolar amino acids | Q55954458 | ||
| Coevolution to the edge of chaos: Coupled fitness landscapes, poised states, and coevolutionary avalanches | Q56094640 | ||
| Fast and Flexible Synthesis of Combinatorial Libraries for Directed Evolution | Q56890762 | ||
| Simultaneous engineering of an enzyme's entrance tunnel and active site: the case of monoamine oxidase MAO-N | Q56891246 | ||
| Directed evolution of enantioselective enzymes: iterative cycles of CASTing for probing protein-sequence space | Q56899243 | ||
| CodonGenie: optimised ambiguous codon design tools | Q56974179 | ||
| P433 | issue | 6 | |
| P304 | page(s) | 1371-1378 | |
| P577 | publication date | 2019-06-07 | |
| P1433 | published in | ACS Synthetic Biology | Q4650828 |
| P1476 | title | GeneORator: An Effective Strategy for Navigating Protein Sequence Space More Efficiently through Boolean OR-Type DNA Libraries | |
| P478 | volume | 8 |
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