about
Selection platforms for directed evolution in synthetic biologyGenome engineering and plant breeding: impact on trait discovery and developmentIntegrated (Meta) Genomic and Synthetic Biology Approaches to Develop New BiocatalystsGeneration of Aptamers with an Expanded Chemical RepertoireA bulk sub-femtoliter in vitro compartmentalization system using super-fine electrospraysDirected Chemical Evolution with an Outsized Genetic CodeAddressing biological uncertainties in engineering gene circuitsOuter membrane protein design.Characterization of mutants of a tyrosine ammonia-lyase from Rhodotorula glutinis.The Framework of Computational Protein Design.Activity-based protein profiling as a robust method for enzyme identification and screening in extremophilic Archaea.Causes of molecular convergence and parallelism in protein evolution.Engineering a novel glucose-tolerant β-glucosidase as supplementation to enhance the hydrolysis of sugarcane bagasse at high glucose concentrationCharacterization of a cold-active esterase from Serratia sp. and improvement of thermostability by directed evolutionIn vitro flow cytometry-based screening platform for cellulase engineering.Protein engineering by highly parallel screening of computationally designed variants.Efficient laboratory evolution of computationally designed enzymes with low starting activities using fluorescence-activated droplet sorting.A Practical System for High-Throughput Screening of Mutants of Bacillus fastidiosus Uricase.Hydrogen overproducing nitrogenases obtained by random mutagenesis and high-throughput screening.CellSort: a support vector machine tool for optimizing fluorescence-activated cell sorting and reducing experimental effort.A Simple Combinatorial Codon Mutagenesis Method for Targeted Protein EngineeringDevelopment of a genetically programed vanillin-sensing bacterium for high-throughput screening of lignin-degrading enzyme librariesEnzyme engineering: A synthetic biology approach for more effective library generation and automated high-throughput screeningExtending enzyme molecular recognition with an expanded amino acid alphabet.CADEE: Computer-Aided Directed Evolution of Enzymes.Novel form of the Michaelis-Menten equation that enables accurate estimation of (kcat/KM)*KI with just two rate measurements; utility in directed evolution.Site-directed mutant libraries for isolating minimal mutations yielding functional changes.Modulating and evaluating receptor promiscuity through directed evolution and modeling.Casting epPCR (cepPCR): A simple random mutagenesis method to generate high quality mutant libraries.Harnessing natural product assembly lines: structure, promiscuity, and engineering.Evolving Methanococcoides burtonii archaeal Rubisco for improved photosynthesis and plant growth.Engineering Highly Potent and Selective Microproteins against Nav1.7 Sodium Channel for Treatment of Pain.Data driven flexible backbone protein design.Using experimental evolution to probe molecular mechanisms of protein function.Exploiting sequence and stability information for directing nanobody stability engineering.Identifying the cellular targets of natural products using T7 phage display.Synthetic Biology-The Synthesis of Biology.Computational tools for the evaluation of laboratory-engineered biocatalysts.Protein engineering and de novo designing of a biocatalyst.Emerging technologies for protease engineering: New tools to clear out disease.
P2860
Q26741325-AE26DE3C-153B-40BC-9E77-A8F5C4F2CFA5Q26748582-D79288BE-CAA0-4E70-87DA-7C7531B3164AQ26752345-71062954-10BE-4833-BD84-A1F9496C2F79Q26782794-E4A7FD19-95A2-4A48-B8D0-E04E5451E958Q27313942-89FD0A2F-942A-461C-9FAB-7D97D9D1C063Q28553436-9732C54E-B257-4FBB-BAC8-A7CCB44610A5Q28834528-74FDBE73-64AB-4F04-B4B2-A2D1FD05859BQ30152697-D52F9997-04FB-4651-AE85-09B11CD81B6BQ30390377-0680A6F9-E844-43D5-80F7-974EF4DAB03DQ30395936-699F2535-C513-4927-90E3-60094FDF5335Q33654310-B9F8A3C0-2BAA-43C3-8128-57F7FAEE591EQ33829798-9A577F6F-00AA-483F-9F20-D6510BF644F8Q35858314-89ED4C6D-53B5-437E-869C-8A5DF80C1392Q35901892-B8AB126E-A6DA-4686-A4CD-FE43051BA442Q36019128-144E49AB-BEED-4F5E-901E-7E599184F963Q36084378-A501051C-E442-4798-9E0D-0A7A8EF94D5AQ36107998-BA30C887-F36E-42BF-A136-7154EBCCD2D4Q36129352-E8A087BF-93FE-4A4F-8515-3D946E740F08Q36211595-731555B7-044D-450B-8C2B-6223A320B006Q36229858-37BAE839-6330-4C80-BB6C-197D0917A192Q36235926-91A693F5-5923-4BB4-910E-F3E45030A075Q36273552-CFE91403-341A-4903-AC4A-F44B127AEAA9Q36274327-A1428959-E92A-4165-9DB6-8FE9B6318F32Q36280519-47FEB8B9-E1E7-4643-89BC-4185DEC77926Q36294688-B7250B3E-C78E-401A-A66A-EAF0487A256DQ36321835-C826BF3F-5B0D-40E4-99A2-CCDDF47D874AQ36321879-0155B9DF-200A-48B7-A43D-4C035C12B051Q36358159-DC3EDA76-E46A-44D4-8B7E-4677D6D20FF0Q36360901-D5378DFF-079D-4B52-BF50-CE09A6C771C2Q36578763-AE4BE01A-1834-4246-97C6-DF9079536A8EQ36633436-D93E7B4B-8349-427B-A277-217F91258BF6Q37065681-1791BD98-0320-4A37-9D7A-7BEE649FB10AQ38610135-E9B270D1-4FF4-4B9D-AC07-0793F5075780Q38618263-2B79E414-CF9D-47E4-B4F1-B3478609806AQ38713206-E4FC8AA6-2729-4BF7-9428-796745C71961Q38768896-5E6BCF75-01D5-4880-8E8E-E4FB0C27E7DCQ38784006-EC2599B6-DE7F-43F3-B770-2F5660FECC14Q38798703-13BD1C3C-C9F8-44DD-A798-12ABC95DE992Q38817496-55996A4A-F2EC-4602-A054-9CC7934EA4E0Q38833850-0407524D-3881-4669-A722-DA2A9B660E0A
P2860
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Methods for the directed evolution of proteins.
@en
type
label
Methods for the directed evolution of proteins.
@en
prefLabel
Methods for the directed evolution of proteins.
@en
P2860
P356
P1476
Methods for the directed evolution of proteins.
@en
P2093
David R Liu
Michael S Packer
P2860
P2888
P304
P356
10.1038/NRG3927
P577
2015-06-09T00:00:00Z
P6179
1048146186