MIRAGE: a functional genomics-based approach for metabolic network model reconstruction and its application to cyanobacteria networks.
about
Algal Cell Factories: Approaches, Applications, and PotentialsReconstruction and validation of a genome-scale metabolic model for the filamentous fungus Neurospora crassa using FARMFast reconstruction of compact context-specific metabolic network modelsConsistency Analysis of Genome-Scale Models of Bacterial Metabolism: A Metamodel ApproachAssessment of FBA Based Gene Essentiality Analysis in Cancer with a Fast Context-Specific Network Reconstruction MethodModel-enabled gene search (MEGS) allows fast and direct discovery of enzymatic and transport gene functions in the marine bacterium Vibrio fischeri.Thermochemical hydrolysis of macroalgae Ulva for biorefinery: Taguchi robust design method.Reconciling a Salmonella enterica metabolic model with experimental data confirms that overexpression of the glyoxylate shunt can rescue a lethal ppc deletion mutantContext-specific metabolic network reconstruction of a naphthalene-degrading bacterial community guided by metaproteomic data.Likelihood-based gene annotations for gap filling and quality assessment in genome-scale metabolic modelsBioinformatic progress and applications in metaproteogenomics for bridging the gap between genomic sequences and metabolic functions in microbial communities.Flux balance analysis of cyanobacterial metabolism: the metabolic network of Synechocystis sp. PCC 6803.BioMog: a computational framework for the de novo generation or modification of essential biomass components.Rapid construction of metabolic models for a family of Cyanobacteria using a multiple source annotation workflowCyanobacteria as photosynthetic biocatalysts: a systems biology perspective.Sequence-based Network Completion Reveals the Integrality of Missing Reactions in Metabolic NetworksA systems biology approach to reconcile metabolic network models with application to Synechocystis sp. PCC 6803 for biofuel production.Meneco, a Topology-Based Gap-Filling Tool Applicable to Degraded Genome-Wide Metabolic NetworksFrom DNA to FBA: How to Build Your Own Genome-Scale Metabolic ModelMissing gene identification using functional coherence scoresSynechocystis sp. PCC6803 metabolic models for the enhanced production of hydrogen.Seeing the wood for the trees: a forest of methods for optimization and omic-network integration in metabolic modelling.DEF: an automated dead-end filling approach based on quasi-endosymbiosis.Optimizing genome-scale network reconstructions.Evaluation of reaction gap-filling accuracy by randomization.How accurate is automated gap filling of metabolic models?Genome-wide analysis of fitness data and its application to improve metabolic modelsMetabolic network reconstruction and phenome analysis of the industrial microbe, Escherichia coli BL21(DE3)Hybrid Metabolic Network Completion
P2860
Q28067621-473486AB-F7CD-4816-8292-42B7F398946BQ28535020-D92B6843-78D7-4BF9-B4B5-9B9AF580E6FBQ28538763-924F4B66-C0E1-4529-8FB4-984A1A2C7BC0Q28551270-E54877E1-5CED-40FC-AB94-5DC9A8210BC5Q28551811-38BECE96-A5A5-4F24-9FC6-0FEEE550BB77Q30030541-914680D9-6D2F-4297-A12B-881AE0785892Q30383310-78EDF7D6-3DCA-4DAC-9A9B-65B0A130E4A5Q30592724-BAD04B05-A122-4119-A8A7-DA264A026139Q30885879-D49B46E5-0ADC-476F-AAA5-DC5C788939F8Q34350839-806A8789-A114-4796-99F6-BEAFAEF6FCDBQ34691984-E1DF5597-230B-4865-BF87-53801417661FQ34811786-B6C73091-4266-4859-ABEB-534418343C0DQ35067465-25E18877-30B1-423E-81B4-2DFBC42D93DBQ35076290-1222B308-B1F2-4679-9907-9B3FA68C994EQ35405654-A56EE08F-756A-47CA-9B37-8EB12E2B1FF1Q35905378-DDA14608-DCEC-4586-82A8-8B412F1B9207Q36041661-842F155B-F46E-4610-A752-E9F2C8A7B3B2Q36262396-012585B4-899E-4058-AA92-F292435F51C8Q37014464-317E3215-3A11-4F45-BC27-2EE61F719006Q37198741-42E65E49-8B18-420E-BABC-AD949B16FF76Q38148789-06D075E3-6CE8-480B-8CFD-C03C6E6FD1B9Q38748541-0C0C78D5-003E-4AC0-9593-D49DF1E6832BQ38974061-3CAEA70B-232A-4B85-9DCB-1297B7D3F47BQ46774634-7A118513-4C4A-455B-A8E7-52E37B764606Q49996785-B8C1458D-0F81-452C-9AC2-8325D2F06199Q55304120-9E36CD1D-F8FA-47E7-8BDD-A91248A9AD16Q57282824-4EFD2D9B-FDD6-4B74-8C2E-91FE0F429792Q58707152-15FE2BA1-CED7-4EEC-B8E2-F58201B0A68FQ59291730-660CBDA3-13A6-47A1-8605-5DDD75122BF2
P2860
MIRAGE: a functional genomics-based approach for metabolic network model reconstruction and its application to cyanobacteria networks.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
MIRAGE: a functional genomics- ...... ion to cyanobacteria networks.
@en
type
label
MIRAGE: a functional genomics- ...... ion to cyanobacteria networks.
@en
prefLabel
MIRAGE: a functional genomics- ...... ion to cyanobacteria networks.
@en
P2860
P1433
P1476
MIRAGE: a functional genomics- ...... ion to cyanobacteria networks.
@en
P2093
Edward Vitkin
Tomer Shlomi
P2860
P2888
P356
10.1186/GB-2012-13-11-R111
P577
2012-11-29T00:00:00Z
P5875
P6179
1040344224