about
CeCaFDB: a curated database for the documentation, visualization and comparative analysis of central carbon metabolic flux distributions explored by 13C-fluxomicsPhysiologically Shrinking the Solution Space of a Saccharomyces cerevisiae Genome-Scale Model Suggests the Role of the Metabolic Network in Shaping Gene Expression NoiseComputational approaches for understanding energy metabolismBasic concepts and principles of stoichiometric modeling of metabolic networksDifferent levels of catabolite repression optimize growth in stable and variable environmentsComputing the functional proteome: recent progress and future prospects for genome-scale modelsUsing Genome-scale Models to Predict Biological CapabilitiesMultiMetEval: comparative and multi-objective analysis of genome-scale metabolic modelsEvolutionary tradeoffs between economy and effectiveness in biological homeostasis systemsFlux imbalance analysis and the sensitivity of cellular growth to changes in metabolite poolsSystematic evaluation of methods for integration of transcriptomic data into constraint-based models of metabolismA scalable computational framework for establishing long-term behavior of stochastic reaction networksA peptide-based method for 13C Metabolic Flux Analysis in microbial communitiesEvolutionary tradeoffs, Pareto optimality and the morphology of ammonite shellsComparative multi-goal tradeoffs in systems engineering of microbial metabolismPrediction of metabolic flux distribution from gene expression data based on the flux minimization principle.Resilience vs. historical contingency in microbial responses to environmental change.A Method to Constrain Genome-Scale Models with 13C Labeling Data.A robust and efficient method for estimating enzyme complex abundance and metabolic flux from expression data.Multiplex methods provide effective integration of multi-omic data in genome-scale models.Determining the control circuitry of redox metabolism at the genome-scale.Quantifying absolute protein synthesis rates reveals principles underlying allocation of cellular resourcesTime-Resolved Transcriptomics and Constraint-Based Modeling Identify System-Level Metabolic Features and Overexpression Targets to Increase Spiramycin Production in Streptomyces ambofaciensMaximal sum of metabolic exchange fluxes outperforms biomass yield as a predictor of growth rate of microorganisms.Metabolic resource allocation in individual microbes determines ecosystem interactions and spatial dynamicsAerobic glycolysis in the human brain is associated with development and neotenous gene expressionImpact of stoichiometry representation on simulation of genotype-phenotype relationships in metabolic networksA proof for loop-law constraints in stoichiometric metabolic networks.Phenotype-based cell-specific metabolic modeling reveals metabolic liabilities of cancer.Dynamic strain scanning optimization: an efficient strain design strategy for balanced yield, titer, and productivity. DySScO strategy for strain design.Large-scale metabolome analysis and quantitative integration with genomics and proteomics data in Mycoplasma pneumoniae.Parallel exploitation of diverse host nutrients enhances Salmonella virulence.Use of adaptive laboratory evolution to discover key mutations enabling rapid growth of Escherichia coli K-12 MG1655 on glucose minimal mediumThe ability of flux balance analysis to predict evolution of central metabolism scales with the initial distance to the optimum.Flux balance analysis of cyanobacterial metabolism: the metabolic network of Synechocystis sp. PCC 6803.Bacterial growth laws reflect the evolutionary importance of energy efficiencyPhenotypic bistability in Escherichia coli's central carbon metabolism.Steady-state metabolite concentrations reflect a balance between maximizing enzyme efficiency and minimizing total metabolite loadHierarchy of non-glucose sugars in Escherichia coli.An objective function exploiting suboptimal solutions in metabolic networks
P2860
Q24698579-60046C42-2230-4D77-AE1F-067FF5B41709Q26786126-134F97BC-7950-4E3F-89B6-141B3736B145Q26859964-B203F58A-5002-40C6-A080-7C53E9D8E410Q27000096-E06A1183-15C0-4D8E-A7FA-DB9AF0662D5BQ27316108-2DE01E84-DD9D-426D-928E-4C1AC03BAC36Q28080776-AD243A21-6050-4CCB-92CE-18109D09B7D6Q28085366-D2215029-B15D-4A21-A7C0-DDA6F54AF15AQ28484385-A15EA9C5-BC52-4DB7-BA66-F842175417B3Q28535196-B2EB5BF1-BC7E-4B32-932A-1182A05A5537Q28536139-9E68EAA9-75D9-43CF-B150-18D74631BB93Q28538197-4DB464E2-B7BF-43A5-B257-632A13E041B6Q28540035-A96BB830-4678-4113-9E12-5D60D207A8F5Q28542761-806B5FBB-1937-4501-BF36-095BED605CBBQ28649445-5809467A-7ECD-42D5-B529-65A83E2DE0A6Q28714382-A6E75321-9DBB-426A-98C0-1B38A25A031DQ30869900-E30CCF37-990E-41D1-A776-BE8085C9A2ACQ30946041-E2DDC2CC-29DA-42EE-A4A0-01468DE5EC91Q30994004-8FD948E0-A6E2-4ACA-8AFF-DAE1BE3D6414Q30994133-5F35EDC5-A5CE-411C-B01D-829946D0E9B4Q31056287-95726362-FA3C-4929-9668-C7CFD1AA2448Q31155315-36B0F02B-F643-468F-9822-C6A2827D48D0Q33551343-00BD504D-EE4E-47A5-AF61-6F62DB8999E4Q33665576-E247DEC1-3FCB-4244-9DF3-24EAF46A2FBDQ33670609-A9B44934-09AF-4F78-8BB0-ABF986657DC3Q33900751-7A1ED0F3-9B7B-4C63-8601-0328BF69474BQ34397077-23215569-F0EE-4FA2-BC87-E12A12CE4B53Q34468908-4D7AE9AC-DD72-41B5-AA59-7A87FDA96D88Q34475028-F93C84C7-DB68-4DAA-B2EC-954D9DC19F2DQ34545824-87A4E40E-C4A5-4E28-B570-093B23E41CC3Q34578742-4CFCA91C-4F89-4712-A1C4-982552799D6CQ34677433-5BBA476D-8B68-4AC4-9848-D88449B4DE09Q34697874-CB36E3E9-5D52-4101-9A9B-4549688439A0Q34747829-B38BB014-15D5-4DD6-8A90-8EFE18BAB241Q34789242-13DB77DD-E969-4471-9D02-569A6515DE80Q34811786-031DEB13-1F0E-460B-85DF-23B7BF9266FCQ34985567-F6317673-785F-4F6F-9FAD-B764AFEE7615Q34986568-800AC3D5-79A5-4CCF-9D72-EFC25A870831Q35005596-F1B1C1EF-5746-41E1-A7CA-654126172614Q35006510-30CA2A9E-03DF-48FE-AAA8-55713B5B0AA6Q35006722-659F2F23-D282-4758-9615-FBDDBC407FF8
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh-hant
name
Multidimensional optimality of microbial metabolism.
@en
Multidimensional optimality of microbial metabolism.
@nl
type
label
Multidimensional optimality of microbial metabolism.
@en
Multidimensional optimality of microbial metabolism.
@nl
prefLabel
Multidimensional optimality of microbial metabolism.
@en
Multidimensional optimality of microbial metabolism.
@nl
P2093
P2860
P356
P1433
P1476
Multidimensional optimality of microbial metabolism.
@en
P2093
Mattia Zampieri
Nicola Zamboni
Robert Schuetz
P2860
P304
P356
10.1126/SCIENCE.1216882
P407
P577
2012-05-01T00:00:00Z