Fundamental limits on the suppression of molecular fluctuations - Wikidata - awgldk - TriplyDB

Fundamental limits on the suppression of molecular fluctuations

Fundamental limits on the suppression of molecular fluctuations

http://www.wikidata.org/entity/Q24631694

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The RelA/SpoT homolog (RSH) superfamily: distribution and functional evolution of ppGpp synthetases and hydrolases across the tree of life Tuning the dials of Synthetic Biology Non-genetic heterogeneity from stochastic partitioning at cell division Phenotypic Variability in Synthetic Biology Applications: Dealing with Noise in Microbial Gene Expression Life as a moving fluid: fate of cytoplasmic macromolecules in dynamic fungal syncytia Interplay between gene expression noise and regulatory network architecture Cellular Growth Arrest and Persistence from Enzyme Saturation Stochastic fluctuations and distributed control of gene expression impact cellular memory A density-dependent switch drives stochastic clustering and polarization of signaling molecules Systems biology of cancer: entropy, disorder, and selection-driven evolution to independence, invasion and "swarm intelligence"The interplay of intrinsic and extrinsic bounded noises in biomolecular networks Combined model of intrinsic and extrinsic variability for computational network design with application to synthetic biology Stochastic responses may allow genetically diverse cell populations to optimize performance with simpler signaling networks Uncoupled analysis of stochastic reaction networks in fluctuating environments The Impact of Different Sources of Fluctuations on Mutual Information in Biochemical Networks Noise in biology Information transduction capacity of noisy biochemical signaling networks Addressing biological uncertainties in engineering gene circuits Functional roles for noise in genetic circuits Stochastic profiling of transcriptional regulatory heterogeneities in tissues, tumors and cultured cells Noise Reduction in Complex Biological Switches.Stochastic sensitivity analysis and kernel inference via distributional data.Cross-talk and information transfer in mammalian and bacterial signaling.Noise characteristics of the Escherichia coli rotary motor.Glycolytic oscillations and limits on robust efficiency.Elucidating the in vivo phosphorylation dynamics of the ERK MAP kinase using quantitative proteomics data and Bayesian model selection.Discovering electrophysiology in photobiology: A brief overview of several photobiological processes with an emphasis on electrophysiology Nodal dynamics, not degree distributions, determine the structural controllability of complex networks.Decomposing noise in biochemical signaling systems highlights the role of protein degradation.Precise developmental gene expression arises from globally stochastic transcriptional activity Reinitiation enhances reliable transcriptional responses in eukaryotes.Adaptability of non-genetic diversity in bacterial chemotaxis Derivation of Ca2+ signals from puff properties reveals that pathway function is robust against cell variability but sensitive for control Under-dominance constrains the evolution of negative autoregulation in diploids.RNA homeostasis governed by cell type-specific and branched feedback loops acting on NMD.Impact of gene expression noise on organismal fitness and the efficacy of natural selection.An objective function exploiting suboptimal solutions in metabolic networks Noise genetics: inferring protein function by correlating phenotype with protein levels and localization in individual human cells.The effect of cell growth phase on the regulatory cross-talk between flagellar and Spi1 virulence gene expression.Exponential signaling gain at the receptor level enhances signal-to-noise ratio in bacterial chemotaxis.

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Fundamental limits on the suppression of molecular fluctuations

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2010 nî lūn-bûn

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2010 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի սեպտեմբերին հրատարակված գիտական հոդված

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2010年の論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年论文

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Fundamental limits on the suppression of molecular fluctuations

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Glenn Vinnicombe

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Ioannis Lestas

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Johan Paulsson

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P2860

Noise in transcription negative feedback loops: simulation and experimental analysis

Stochastic gene expression in a single cell

Single-cell proteomic analysis of S. cerevisiae reveals the architecture of biological noise

Regulation of noise in the expression of a single gene

Surviving heat shock: control strategies for robustness and performance.

Multiple homeostatic mechanisms in the control of P1 plasmid replication

Physical limits to biochemical signaling

Noise in a minimal regulatory network: plasmid copy number control.

Summing up the noise in gene networks.

Real-time kinetics of gene activity in individual bacteria.

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10.1038/NATURE09333

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7312

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1039737232

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20829788

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2996232

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