Filling gaps in a metabolic network using expression information. - Test2 - elhamkhani - TriplyDB

Filling gaps in a metabolic network using expression information.

Filling gaps in a metabolic network using expression information.

http://www.wikidata.org/entity/Q48533883

about

Integrated biclustering of heterogeneous genome-wide datasets for the inference of global regulatory networks A metabolic network in the evolutionary context: multiscale structure and modularity Automation of gene assignments to metabolic pathways using high-throughput expression data.Metabolic pathway reconstruction strategies for central metabolism and natural product biosynthesis Reconstruction and validation of RefRec: a global model for the yeast molecular interaction network.The CanOE strategy: integrating genomic and metabolic contexts across multiple prokaryote genomes to find candidate genes for orphan enzymes Prediction of missing enzyme genes in a bacterial metabolic network. Reconstruction of the lysine-degradation pathway of Pseudomonas aeruginosa Computational approaches for microalgal biofuel optimization: a review Simultaneous prediction of enzyme orthologs from chemical transformation patterns for de novo metabolic pathway reconstruction Metabolic Consequences of TGFb Stimulation in CulturedPrimary Mouse Hepatocytes Screened from Transcript Data with ModeScore The MORPH-R web server and software tool for predicting missing genes in biological pathways.Prioritizing orphan proteins for further study using phylogenomics and gene expression profiles in Streptomyces coelicolor.Identifying metabolic enzymes with multiple types of association evidence.Accelerating the reconstruction of genome-scale metabolic networks.Classification of microarray data using gene networks GrowMatch: an automated method for reconciling in silico/in vivo growth predictions The human metabolic reconstruction Recon 1 directs hypotheses of novel human metabolic functions Automatic policing of biochemical annotations using genomic correlations CINPER: an interactive web system for pathway prediction for prokaryotes The growing scope of applications of genome-scale metabolic reconstructions using Escherichia coli.Semi-automated curation of metabolic models via flux balance analysis: a case study with Mycoplasma gallisepticum Systematizing the generation of missing metabolic knowledge.Quantifying the metabolic capabilities of engineered Zymomonas mobilis using linear programming analysis.Systems approach to refining genome annotation.Computational prediction and experimental verification of the gene encoding the NAD+/NADP+-dependent succinate semialdehyde dehydrogenase in Escherichia coli.From DNA to FBA: How to Build Your Own Genome-Scale Metabolic Model Missing gene identification using functional coherence scores In silico method for modelling metabolism and gene product expression at genome scale.Gene expression profiling and the use of genome-scale in silico models of Escherichia coli for analysis: providing context for content.Genome-scale metabolic networks.Genome scale models of yeast: towards standardized evaluation and consistent omic integration.Genome-scale metabolic models as platforms for strain design and biological discovery.Reconstruction and visualization of carbohydrate, N-glycosylation pathways in Pichia pastoris CBS7435 using computational and system biology approaches.MIRAGE: a functional genomics-based approach for metabolic network model reconstruction and its application to cyanobacteria networks.GENIES: gene network inference engine based on supervised analysis.Influence of metabolic network structure and function on enzyme evolution Optimization based automated curation of metabolic reconstructions.ModEnzA: Accurate Identification of Metabolic Enzymes Using Function Specific Profile HMMs with Optimised Discrimination Threshold and Modified Emission Probabilities.Predicting genes for orphan metabolic activities using phylogenetic profiles.In response to 'Can sugars be produced from fatty acids? A test case for pathway analysis tools'.

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P2860

Filling gaps in a metabolic network using expression information.

http://www.wikidata.org/entity/Q48533883

description

2004 nî lūn-bûn

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2004年の論文

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年學術文章

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2004年學術文章

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name

Filling gaps in a metabolic network using expression information.

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Filling gaps in a metabolic network using expression information.

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type

label

Filling gaps in a metabolic network using expression information.

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Filling gaps in a metabolic network using expression information.

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prefLabel

Filling gaps in a metabolic network using expression information.

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Filling gaps in a metabolic network using expression information.

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Filling gaps in a metabolic network using expression information.

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Dennis Vitkup

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Peter Kharchenko

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i178-85

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10.1093/BIOINFORMATICS/BTH930

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20 Suppl 1

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George M. Church

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2004-08-01T00:00:00Z

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8446376

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15262797

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