Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast - Test2 - elhamkhani - TriplyDB

Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

http://www.wikidata.org/entity/Q24615103

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Genome-Wide Transcriptional Response of Saccharomyces cerevisiae to Stress-Induced Perturbations Nutritional control of growth and development in yeast The Yeast Cyclin-Dependent Kinase Routes Carbon Fluxes to Fuel Cell Cycle Progression Environmental Interactions and Epistasis Are Revealed in the Proteomic Responses to Complex Stimuli Butanol production in S. cerevisiae via a synthetic ABE pathway is enhanced by specific metabolic engineering and butanol resistance Theory of the origin, evolution, and nature of life SW1PerS: Sliding windows and 1-persistence scoring; discovering periodicity in gene expression time series data.The MADS-box XAANTAL1 increases proliferation at the Arabidopsis root stem-cell niche and participates in transition to differentiation by regulating cell-cycle components.Constant growth rate can be supported by decreasing energy flux and increasing aerobic glycolysis The yin and yang of yeast transcription: elements of a global feedback system between metabolism and chromatin.Differential Stoichiometry among Core Ribosomal Proteins Post-transcriptional regulation across human tissues.Quantifying condition-dependent intracellular protein levels enables high-precision fitness estimates.Metabolic cycling without cell division cycling in respiring yeast.Homeostasis of redox status derived from glucose metabolic pathway could be the key to understanding the Warburg effect.Model-Based Analysis of Cell Cycle Responses to Dynamically Changing Environments A conserved cell growth cycle can account for the environmental stress responses of divergent eukaryotes.Dynamics of oscillatory phenotypes in Saccharomyces cerevisiae reveal a network of genome-wide transcriptional oscillators Autophagy and cell growth--the yin and yang of nutrient responses.Cycling Transcriptional Networks Optimize Energy Utilization on a Genome Scale.Cell cycle Start is coupled to entry into the yeast metabolic cycle across diverse strains and growth rates Abundant gene-by-environment interactions in gene expression reaction norms to copper within Saccharomyces cerevisiae Decoupling nutrient signaling from growth rate causes aerobic glycolysis and deregulation of cell size and gene expression.Topology and control of the cell-cycle-regulated transcriptional circuitry.Predicting complex phenotype-genotype interactions to enable yeast engineering: Saccharomyces cerevisiae as a model organism and a cell factory.The importance of controlling mRNA turnover during cell proliferation.The molecular basis of metabolic cycles and their relationship to circadian rhythms.Systems-level response to point mutations in a core metabolic enzyme modulates genotype-phenotype relationship.The cellular growth rate controls overall mRNA turnover, and modulates either transcription or degradation rates of particular gene regulons.Growth rate controls mRNA turnover in steady and non-steady states Loss of growth homeostasis by genetic decoupling of cell division from biomass growth: implication for size control mechanisms.Cell cycle dynamics in a response/signalling feedback system with a gap.Time resolved DNA occupancy dynamics during the respiratory oscillation uncover a global reset point in the yeast growth program.Physiological heterogeneities in microbial populations and implications for physical stress tolerance.Homeostasis of redox status derived from glucose metabolic pathway could be the key to understanding the Warburg effect.Single-cell RNA sequencing reveals intrinsic and extrinsic regulatory heterogeneity in yeast responding to stress.Reconciling conflicting models for global control of cell-cycle transcription.Cell cycle dynamics: clustering is universal in negative feedback systems.

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

http://www.wikidata.org/entity/Q24615103

description

2011 nî lūn-bûn

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2011 թուականի Յունիսին հրատարակուած գիտական յօդուած

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2011 թվականի հունիսին հրատարակված գիտական հոդված

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2011年の論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年论文

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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Molecular Biology of the Cell

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Coupling among growth rate response, metabolic cycle, and cell division cycle in yeast

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P2860

Unequal division in Saccharomyces cerevisiae and its implications for the control of cell division

Growth control of the eukaryote cell: a systems biology study in yeast

A proposal for nomenclature of aldehyde dehydrogenases in Saccharomyces cerevisiae and characterization of the stress-inducible ALD2 and ALD3 genes.

Functional analysis of the ALD gene family of Saccharomyces cerevisiae during anaerobic growth on glucose: the NADP+-dependent Ald6p and Ald5p isoforms play a major role in acetate formation.

Growth-rate regulated genes have profound impact on interpretation of transcriptome profiling in Saccharomyces cerevisiae

GO::TermFinder--open source software for accessing Gene Ontology information and finding significantly enriched Gene Ontology terms associated with a list of genes

Singular value decomposition for genome-wide expression data processing and modeling

Genetic control of the cell division cycle in yeast

Identifying single-cell molecular programs by stochastic profiling.

Integrative investigation of metabolic and transcriptomic data

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