about
Identification of functional modules using network topology and high-throughput data.Comparative gene expression between two yeast speciesDynamic circadian protein-protein interaction networks predict temporal organization of cellular functionsCluster analysis of networks generated through homology: automatic identification of important protein communities involved in cancer metastasisCell wall assembly in Saccharomyces cerevisiaeSTRING 8--a global view on proteins and their functional interactions in 630 organismsNetwork-based prediction of protein functionThe Forkhead transcription factor Hcm1 regulates chromosome segregation genes and fills the S-phase gap in the transcriptional circuitry of the cell cycleGlobal topological features of cancer proteins in the human interactomeThe origins and evolution of functional modules: lessons from protein complexesHURP controls spindle dynamics to promote proper interkinetochore tension and efficient kinetochore capture.Untangling the web of functional and physical interactions in yeastGO-Diff: mining functional differentiation between EST-based transcriptomes.Genome-wide prediction and characterization of interactions between transcription factors in Saccharomyces cerevisiae.Human protein interaction networks across tissues and diseasesIntegrative approaches for finding modular structure in biological networksComputational support for a scaffolding mechanism of centriole assembly.Widespread reorganization of metabolic enzymes into reversible assemblies upon nutrient starvation.Assessing systems properties of yeast mitochondria through an interaction map of the organellePlk1- and beta-TrCP-dependent degradation of Bora controls mitotic progressionThe Modular Organization of Protein Interactions in Escherichia coliPredicting housekeeping genes based on Fourier analysisProteome organization in a genome-reduced bacteriumRechecking the Centrality-Lethality Rule in the Scope of Protein Subcellular Localization Interaction NetworksQualitative and Quantitative Protein Complex Prediction Through Proteome-Wide SimulationsIntegration of biological networks and gene expression data using CytoscapeReview and application of group theory to molecular systems biologyCurrent approaches to gene regulatory network modellingModelling in molecular biology: describing transcription regulatory networks at different scalesA wiki for the life sciences where authorship mattersNetwork biology concepts in complex disease comorbiditiesHigh-resolution transcription atlas of the mitotic cell cycle in budding yeastSystems biology: in the broadest sense of the wordCell cycle regulation by feed-forward loops coupling transcription and phosphorylationIdentification of tightly regulated groups of genes during Drosophila melanogaster embryogenesisPredicting biological networks from genomic dataRe-analysis of data and its integrationA network-based analysis of polyanion-binding proteins utilizing yeast protein arrays.Construction of a large extracellular protein interaction network and its resolution by spatiotemporal expression profiling.CellCircuits: a database of protein network models.
P2860
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P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Dynamic Complex Formation During the Yeast Cell Cycle
@ast
Dynamic Complex Formation During the Yeast Cell Cycle
@en
type
label
Dynamic Complex Formation During the Yeast Cell Cycle
@ast
Dynamic Complex Formation During the Yeast Cell Cycle
@en
prefLabel
Dynamic Complex Formation During the Yeast Cell Cycle
@ast
Dynamic Complex Formation During the Yeast Cell Cycle
@en
P3181
P356
P1433
P1476
Dynamic Complex Formation During the Yeast Cell Cycle
@en
P2093
U. de Lichtenberg
P304
P3181
P356
10.1126/SCIENCE.1105103
P407
P577
2005-02-04T00:00:00Z