about
Mechanisms of deadenylation-dependent decayMam33 promotes cytochrome c oxidase subunit I translation in Saccharomyces cerevisiae mitochondria.The yeast Sks1p kinase signaling network regulates pseudohyphal growth and glucose responseIncreased glycolytic flux as an outcome of whole-genome duplication in yeastFunctional partitioning of yeast co-expression networks after genome duplicationEffects of MIG1, TUP1 and SSN6 deletion on maltose metabolism and leavening ability of baker's yeast in lean dough.Genome-wide integration on transcription factors, histone acetylation and gene expression reveals genes co-regulated by histone modification patterns.How yeast re-programmes its transcriptional profile in response to different nutrient impulsesTranscriptional response of steady-state yeast cultures to transient perturbations in carbon source.Glucose signaling in Saccharomyces cerevisiae.Leveraging transcription factors to speed cellobiose fermentation by Saccharomyces cerevisiaeStatistical analysis reveals co-expression patterns of many pairs of genes in yeast are jointly regulated by interacting loci.Role of glucose in the expression of Cryptococcus neoformans antiphagocytic protein 1, App1.Using the principle of entropy maximization to infer genetic interaction networks from gene expression patternsProtein kinase A, TOR, and glucose transport control the response to nutrient repletion in Saccharomyces cerevisiae.Identification of hexose transporter-like sensor HXS1 and functional hexose transporter HXT1 in the methylotrophic yeast Hansenula polymorpha.Yeast Interspecies Comparative Proteomics Reveals Divergence in Expression Profiles and Provides Insights into Proteome Resource Allocation and Evolutionary Roles of Gene Duplication.Mutations in HISTONE ACETYLTRANSFERASE1 affect sugar response and gene expression in Arabidopsis.Emerging mechanisms of mRNP remodeling regulation.Molecular communication: crosstalk between the Snf1 and other signaling pathways.Sugar and Glycerol Transport in Saccharomyces cerevisiae.When transcriptome meets metabolome: fast cellular responses of yeast to sudden relief of glucose limitation.Regulation of conditional gene expression by coupled transcription repression and RNA degradation.How the Rgt1 transcription factor of Saccharomyces cerevisiae is regulated by glucose.Interactions between the kinetochore complex and the protein kinase A pathway in Saccharomyces cerevisiae.Polyploidy and the evolution of complex traitsMutations of the TATA-binding protein confer enhanced tolerance to hyperosmotic stress in Saccharomyces cerevisiae.
P2860
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P2860
description
2003 nî lūn-bûn
@nan
2003 թուականին հրատարակուած գիտական յօդուած
@hyw
2003 թվականին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Multi-level response of the yeast genome to glucose
@ast
Multi-level response of the yeast genome to glucose
@en
Multi-level response of the yeast genome to glucose
@nl
type
label
Multi-level response of the yeast genome to glucose
@ast
Multi-level response of the yeast genome to glucose
@en
Multi-level response of the yeast genome to glucose
@nl
prefLabel
Multi-level response of the yeast genome to glucose
@ast
Multi-level response of the yeast genome to glucose
@en
Multi-level response of the yeast genome to glucose
@nl
P2093
P2860
P921
P356
P1433
P1476
Multi-level response of the yeast genome to glucose
@en
P2093
Johan M Thevelein
Patrick Van Dijck
Ruud Geladé
Sam Van de Velde
P2860
P2888
P356
10.1186/GB-2003-4-11-233
P407
P577
2003-01-01T00:00:00Z
2003-10-15T00:00:00Z
P5875
P6179
1018305308