Gal3p and Gal1p interact with the transcriptional repressor Gal80p to form a complex of 1:1 stoichiometry
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Galactose toxicity in animalsMolecular structure of galactokinaseThe effect of ligand binding on the galactokinase activity of yeast Gal1p and its ability to activate transcription.Self-association of the Gal4 inhibitor protein Gal80 is impaired by Gal3: evidence for a new mechanism in the GAL gene switch.Comparative modeling and genomics for galactokinase (Gal1p) enzyme.A light-inducible organelle-targeting system for dynamically activating and inactivating signaling in budding yeastInferring transcriptional modules from ChIP-chip, motif and microarray data.Inferring Transcriptional Interactions by the Optimal Integration of ChIP-chip and Knock-out DataRapid GAL gene switch of Saccharomyces cerevisiae depends on nuclear Gal3, not nucleocytoplasmic trafficking of Gal3 and Gal80Gal80 dimerization and the yeast GAL gene switch.Intragenic suppression of Gal3C interaction with Gal80 in the Saccharomyces cerevisiae GAL gene switchNetwork-dosage compensation topologies as recurrent network motifs in natural gene networksA cell size- and cell cycle-aware stochastic model for predicting time-dynamic gene network activity in individual cells.Synergistic dual positive feedback loops established by molecular sequestration generate robust bimodal response.Noise reduction facilitated by dosage compensation in gene networks.Transcriptional rewiring of fungal galactose-metabolism circuitryOngoing resolution of duplicate gene functions shapes the diversification of a metabolic network.A general mechanism for network-dosage compensation in gene circuits.Tuning the range and stability of multiple phenotypic states with coupled positive-negative feedback loops.Genetic and Epigenetic Strategies Potentiate Gal4 Activation to Enhance Fitness in Recently Diverged Yeast Species.Molecular structure of Saccharomyces cerevisiae Gal1p, a bifunctional galactokinase and transcriptional inducer.The GAL genetic switch: visualisation of the interacting proteins by split-EGFP bimolecular fluorescence complementation.The galactose switch in Kluyveromyces lactis depends on nuclear competition between Gal4 and Gal1 for Gal80 binding.Dynamics of Gal80p in the Gal80p-Gal3p complex differ significantly from the dynamics in the Gal80p-Gal1p complex: implications for the higher specificity of Gal3p.Molecular simulation and docking studies of Gal1p and Gal3p proteins in the presence and absence of ligands ATP and galactose: implication for transcriptional activation of GAL genes.Multi-component gene network design as a survival strategy in diverse environments
P2860
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P2860
Gal3p and Gal1p interact with the transcriptional repressor Gal80p to form a complex of 1:1 stoichiometry
description
2002 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի մայիսին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2002
@ast
im Mai 2002 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
wetenschappelijk artikel (gepubliceerd op 2002/05/01)
@nl
наукова стаття, опублікована в травні 2002
@uk
مقالة علمية (نشرت في مايو 2002)
@ar
name
Gal3p and Gal1p interact with ...... a complex of 1:1 stoichiometry
@ast
Gal3p and Gal1p interact with ...... a complex of 1:1 stoichiometry
@en
type
label
Gal3p and Gal1p interact with ...... a complex of 1:1 stoichiometry
@ast
Gal3p and Gal1p interact with ...... a complex of 1:1 stoichiometry
@en
prefLabel
Gal3p and Gal1p interact with ...... a complex of 1:1 stoichiometry
@ast
Gal3p and Gal1p interact with ...... a complex of 1:1 stoichiometry
@en
P2093
P2860
P3181
P1433
P1476
Gal3p and Gal1p interact with ...... a complex of 1:1 stoichiometry
@en
P2093
David J. Timson
Helen C. Ross
Richard J. Reece
P2860
P304
P3181
P356
10.1042/0264-6021:3630515
P407
P577
2002-05-01T00:00:00Z