A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
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Fluorescent Reporter Libraries as Useful Tools for Optimizing Microbial Cell Factories: A Review of the Current Methods and ApplicationsImproved statistical analysis of low abundance phenomena in bimodal bacterial populationsBistable expression of virulence genes in salmonella leads to the formation of an antibiotic-tolerant subpopulationCoupling between noise and plasticity in E. coliTackling Drug Resistant Infection Outbreaks of Global Pandemic Escherichia coli ST131 Using Evolutionary and Epidemiological Genomics.Classic reaction kinetics can explain complex patterns of antibiotic action.The regulatory network of natural competence and transformation of Vibrio choleraeTeasing apart translational and transcriptional components of stochastic variations in eukaryotic gene expression.Phenotypic heterogeneity is a selected trait in natural yeast populations subject to environmental stress.Burkholderia cenocepacia conditional growth mutant library created by random promoter replacement of essential genes.Colonization resistance and microbial ecophysiology: using gnotobiotic mouse models and single-cell technology to explore the intestinal jungle.Analysis of fluorescent reporters indicates heterogeneity in glucose uptake and utilization in clonal bacterial populations.Limits to compensatory adaptation and the persistence of antibiotic resistance in pathogenic bacteria.Expression noise facilitates the evolution of gene regulation.Single Cell Analysis of a Bacterial Sender-Receiver SystemIntraspecific variation in social organization by genetic variation, developmental plasticity, social flexibility or entirely extrinsic factors.Monitoring of dynamic microbiological processes using real-time flow cytometry.Contribution of phenotypic heterogeneity to adaptive antibiotic resistance.Transcript level and sequence determinants of protein abundance and noise in Escherichia coliGenomic tools to profile antibiotic mode of action.Gene expression variability in clonal populations: Causes and consequences.From noise to synthetic nucleoli: can synthetic biology achieve new insights?Taking control over microbial populations: Current approaches for exploiting biological noise in bioprocesses.Taking chances and making mistakes: non-genetic phenotypic heterogeneity and its consequences for surviving in dynamic environmentsSpatially coordinated replication and minimization of expression noise constrain three-dimensional organization of yeast genome.Bacterial-Chromatin Structural Proteins Regulate the Bimodal Expression of the Locus of Enterocyte Effacement (LEE) Pathogenicity Island in Enteropathogenic Escherichia coli.MazF activation promotes translational heterogeneity of the grcA mRNA in Escherichia coli populations.Linking system-wide impacts of RNA polymerase mutations to the fitness cost of rifampin resistance in Pseudomonas aeruginosa.Microbial individuality in the natural environment.Single-Cell Analysis of the Dps Response to Oxidative Stress.Global relationships in fluctuation and response in adaptive evolution.From Genes to Ecosystems in Microbiology: Modeling Approaches and the Importance of Individuality.Investigating the physiology of viable but non-culturable bacteria by microfluidics and time-lapse microscopy.Integrating metabolic modeling and population heterogeneity analysis into optimizing recombinant protein production by Komagataella (Pichia) pastoris.Visualizing translational errors: one cell at a time.Computational Investigation of Environment-Noise Interaction in Single-Cell Organisms: The Merit of Expression Stochasticity Depends on the Quality of Environmental Fluctuations.Cell-to-cell variation and specialization in sugar metabolism in clonal bacterial populations.The emergence of metabolic heterogeneity and diverse growth responses in isogenic bacterial cells.Autoregulation of mazEF expression underlies growth heterogeneity in bacterial populations.Phenotypic variability in bioprocessing conditions can be tracked on the basis of on-line flow cytometry and fits to a scaling law.
P2860
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P2860
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
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2012 nî lūn-bûn
@nan
2012 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@ast
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@en
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@nl
type
label
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@ast
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@en
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@nl
prefLabel
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@ast
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@en
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@nl
P2093
P2860
P1433
P1476
A genome-wide analysis of promoter-mediated phenotypic noise in Escherichia coli
@en
P2093
Alon Zaslaver
Ilya Kikoin
Martin Ackermann
P2860
P304
P356
10.1371/JOURNAL.PGEN.1002443
P407
P577
2012-01-19T00:00:00Z