Microbial laboratory evolution in the era of genome-scale science.
about
Genome-scale engineering for systems and synthetic biologyIndividuality, phenotypic differentiation, dormancy and 'persistence' in culturable bacterial systems: commonalities shared by environmental, laboratory, and clinical microbiologyElucidating the molecular architecture of adaptation via evolve and resequence experimentsCulture history and population heterogeneity as determinants of bacterial adaptation: the adaptomics of a single environmental transitionSpatiotemporal microbial evolution on antibiotic landscapesEcological Opportunity, Evolution, and the Emergence of Flea-Borne PlagueConsiderations when choosing a genetic model organism for metabolomics studiesAnalysis of genetic variation and potential applications in genome-scale metabolic modelingRedirector: designing cell factories by reconstructing the metabolic objectiveDisentangling genetic and epigenetic determinants of ultrafast adaptationParallel and Divergent Evolutionary Solutions for the Optimization of an Engineered Central Metabolism in Methylobacterium extorquens AM1The functional basis of adaptive evolution in chemostatsMicrobial experimental evolution as a novel research approach in the Vibrionaceae and squid-Vibrio symbiosisGenome dynamics during experimental evolutionThermal and solvent stress cross-tolerance conferred to Corynebacterium glutamicum by adaptive laboratory evolutionZymomonas mobilis: a novel platform for future biorefineriesQuantification and Classification of E. coli Proteome Utilization and Unused Protein Costs across Environments.Engineering reduced evolutionary potential for synthetic biologyTime-programmable drug dosing allows the manipulation, suppression and reversal of antibiotic drug resistance in vitroExperimental evolution reveals an effective avenue to release catabolite repression via mutations in XylR.The role of replicates for error mitigation in next-generation sequencing.Microbial communities evolve faster in extreme environmentsFitness landscape transformation through a single amino acid change in the rho terminator.Engineering ecosystems and synthetic ecologies.Prediction of antibiotic resistance by gene expression profiles.Fine-tuning citrate synthase flux potentiates and refines metabolic innovation in the Lenski evolution experiment.Use of adaptive laboratory evolution to discover key mutations enabling rapid growth of Escherichia coli K-12 MG1655 on glucose minimal mediumGenomic diversity of "deep ecotype" Alteromonas macleodii isolates: evidence for Pan-Mediterranean clonal frames.Detecting rare structural variation in evolving microbial populations from new sequence junctions using breseqIndustrial robustness: understanding the mechanism of tolerance for the Populus hydrolysate-tolerant mutant strain of Clostridium thermocellumNon-essential genes form the hubs of genome scale protein function and environmental gene expression networks in Salmonella enterica serovar Typhimurium.Genome instability mediates the loss of key traits by Acinetobacter baylyi ADP1 during laboratory evolution.Rapid evolution of silver nanoparticle resistance in Escherichia coli.Acid-adapted strains of Escherichia coli K-12 obtained by experimental evolution.Cyanobacteria as photosynthetic biocatalysts: a systems biology perspective.Phenotypic Variation Is Almost Entirely Independent of the Host-Pathogen Relationship in Clinical Isolates of S. aureusChlamydia trachomatis In Vivo to In Vitro Transition Reveals Mechanisms of Phase Variation and Down-Regulation of Virulence FactorsEvolutionary Consequence of a Trade-Off between Growth and Maintenance along with Ribosomal DamagesAdaptive Evolution of Thermotoga maritima Reveals Plasticity of the ABC Transporter Network.Parallel genetic changes and nonparallel gene-environment interactions characterize the evolution of drug resistance in yeast.
P2860
Q22122302-81C2D2BA-4CFC-4518-A062-4A9BD9D74657Q26775404-66F1D39E-DFF0-430B-8960-1C725A8D61F1Q26783005-0578A373-D74F-4FB9-B2CC-60289E09B378Q26825267-A945B5A2-9512-42F5-9119-E27EAD76BD7DQ26844386-17A71BBD-A66B-4851-95FB-ED46E727452DQ28067316-F6FE4549-ADE6-4F0E-A150-8D12510FAA2CQ28073253-EDC7BD21-52DD-4D3B-A4DD-47CE6EF96EAFQ28083054-34F0A9A0-2E66-4857-BD41-5E4390A3E68AQ28485150-F0126608-6750-414C-8714-01FC771CF3E8Q28584571-4BD5E5FE-8070-437B-8A9F-01E122ADF763Q28595783-1745EEA8-707B-4DB2-A4FC-9FA35717AC68Q28649903-1CFDDF6E-AC19-4A43-B04E-29F38FA4F4FDQ28650174-1DEE7D64-E07D-497F-8B35-1D78F7BAF07BQ28651650-E2F2F1FE-17B5-4C94-9F39-345052658C12Q28652451-6FB20289-7548-4A85-8CE1-099F8CF32DD6Q28655788-8C4BFD43-8F1C-48CA-BB20-6AF933C05F1DQ30151952-89EC1011-F869-4B6B-B77B-1CCB2D8F77D6Q33707268-8AE24901-7995-48BC-8E47-BC6B09C98868Q33802897-1B16678C-E63D-4DC8-9003-C203E2C439B5Q33913573-2723155E-5312-41A2-A7C2-AC5A0C66231DQ33921022-CBE59818-FC4C-4936-AC64-62F456CC06F8Q34091835-468C9A13-2BD0-4B39-9E98-43AC4843FCC3Q34302180-C231B0BD-B7CE-4FC0-88C8-B15321687526Q34313206-89FD0773-938C-498F-A00A-323F6D0E5E50Q34454311-85FE08EE-97F4-4D9B-869E-3F289ECA3A26Q34497933-F5F1DB17-0315-4B67-BA68-05696EFB3B1AQ34747829-AE82CB15-C158-465D-BB97-00ADA395B4B3Q34752706-69401C0A-8705-4B62-8F54-CA5DCC861445Q34992854-A1BCA54D-D328-4782-AE7B-E985766AAA49Q35036758-7B039CAF-032E-488E-B6FD-EA14B8B41447Q35068795-D1256D15-0431-45B3-B4F2-1509D9C2A68EQ35074936-9A8E545A-1068-433B-A000-C0BE51D5E29EQ35090405-3647DB53-81BD-4803-9BA7-D5C8BCC5A4FBQ35134125-3D9EB2DB-D6DE-48BF-9CEB-1D29C9ECF0E7Q35405654-E4DDC605-DDD2-4A8E-B9B2-1E26E35D5CBAQ35670537-B8FDEA83-5171-444A-9F0C-AC8B4A075A2DQ35710313-315527DA-B6B4-4EA0-9529-583010C0136CQ35751528-CDB55C3B-7AF2-4E3D-A904-97EC25F0F827Q35876425-CD658099-7496-4802-B4A7-E4E5F42F1210Q36198245-77A95C85-ABDC-411D-9C9E-9036CBBD0A61
P2860
Microbial laboratory evolution in the era of genome-scale science.
description
2011 nî lūn-bûn
@nan
2011 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Microbial laboratory evolution in the era of genome-scale science.
@ast
Microbial laboratory evolution in the era of genome-scale science.
@en
type
label
Microbial laboratory evolution in the era of genome-scale science.
@ast
Microbial laboratory evolution in the era of genome-scale science.
@en
prefLabel
Microbial laboratory evolution in the era of genome-scale science.
@ast
Microbial laboratory evolution in the era of genome-scale science.
@en
P2860
P356
P1476
Microbial laboratory evolution in the era of genome-scale science.
@en
P2093
Tom M Conrad
P2860
P356
10.1038/MSB.2011.42
P577
2011-07-05T00:00:00Z