about
Non-homologous isofunctional enzymes: a systematic analysis of alternative solutions in enzyme evolution.Molecular identification of NAT8 as the enzyme that acetylates cysteine S-conjugates to mercapturic acidsProtein molecular function prediction by Bayesian phylogenomics.Structure-based functional annotation: yeast ymr099c codes for a D-hexose-6-phosphate mutarotase.Prediction of missing enzyme genes in a bacterial metabolic network. Reconstruction of the lysine-degradation pathway of Pseudomonas aeruginosaReconstruction and validation of a genome-scale metabolic model for the filamentous fungus Neurospora crassa using FARMNew metrics for comparative genomicsSimultaneous prediction of enzyme orthologs from chemical transformation patterns for de novo metabolic pathway reconstructionThe enzymatic nature of an anonymous protein sequence cannot reliably be inferred from superfamily level structural information aloneCellCircuits: a database of protein network models.'Conserved hypothetical' proteins: prioritization of targets for experimental studyBioWarehouse: a bioinformatics database warehouse toolkitORENZA: a web resource for studying ORphan ENZyme activitiesHigh precision multi-genome scale reannotation of enzyme function by EFICAz.In silico pathway reconstruction: Iron-sulfur cluster biogenesis in Saccharomyces cerevisiae.A survey of orphan enzyme activitiesComparative genomics of bacterial and plant folate synthesis and salvage: predictions and validationsAnEnPi: identification and annotation of analogous enzymes.Towards integrative gene functional similarity measurement.The human metabolic reconstruction Recon 1 directs hypotheses of novel human metabolic functionsGap-filling analysis of the iJO1366 Escherichia coli metabolic network reconstruction for discovery of metabolic functions.'Unknown' proteins and 'orphan' enzymes: the missing half of the engineering parts list--and how to find itFastAnnotator--an efficient transcript annotation web tool.A systematic comparison of the MetaCyc and KEGG pathway databases.The outcomes of pathway database computations depend on pathway ontology.Dead end metabolites--defining the known unknowns of the E. coli metabolic networkAn integrative approach for measuring semantic similarities using gene ontology.Systematizing the generation of missing metabolic knowledge.Finding sequences for over 270 orphan enzymesFunctional Diversity of Haloacid Dehalogenase Superfamily Phosphatases from Saccharomyces cerevisiae: BIOCHEMICAL, STRUCTURAL, AND EVOLUTIONARY INSIGHTS.Computational prediction and experimental verification of the gene encoding the NAD+/NADP+-dependent succinate semialdehyde dehydrogenase in Escherichia coli.Profiling the orphan enzymes.VIRGO: computational prediction of gene functions.Metabolic pathway reconstruction of eugenol to vanillin bioconversion in Aspergillus niger.Predicting genes for orphan metabolic activities using phylogenetic profiles.Revealing the hidden functional diversity of an enzyme family.Mannitol oxidase and polyol dehydrogenases in the digestive gland of gastropods: Correlations with phylogeny and diet.Inferring the metabolism of human orphan metabolites from their metabolic network context affirms human gluconokinase activity
P2860
Q21093192-675696C1-6EEA-45EE-B46A-EBF835A3BC09Q24306640-069CD871-0B9E-435A-9AE5-C541337B88E1Q24814913-09E33791-FF85-4EBD-A1BF-1AB13A543EE6Q27935132-31828299-8C5F-4CBC-960F-0E4E826B3B80Q28492567-05C4ADB9-E05F-43AD-9888-BDFCC72518CDQ28535020-8E3C5920-03FA-44F6-8EB1-530D59D76F27Q28763948-AE25F3CA-5926-4AAF-B6F3-32B03C090A3EQ28830284-CF193DDA-9FB1-4E11-9580-5D1C5E3CB5E4Q30370436-679182AA-1B4E-4685-A71F-F6EA81EF598BQ30483312-55B63BD0-A133-4AB0-B10A-E6E968569DCFQ31120471-9EC999E0-1D5B-4E84-819F-85664DE79C59Q33237374-4F68142E-1E0D-485E-93CD-E3C9FCBF9B58Q33259651-6A5F464E-7AFF-4365-AE59-060D2FDF9366Q33266468-F25B0B3A-16D9-469F-8812-A52CE8E99863Q33281129-96744D4E-5A4A-4157-BDB5-CDE7151B2DE3Q33290482-7A0B2E32-F2E2-47B1-937E-60698AE44693Q33291455-70693177-5330-4E33-96AE-F608BB41EA3FQ33394033-AEB960E1-9F1E-428E-9ADA-49A3A39BABF7Q33590281-5A44C1AD-0986-493E-B339-3B94A982B5CBQ34036307-82D0B86B-D374-4EEE-9F4E-75AB8F4C2AD8Q34252817-F729C304-F002-4D65-AF1D-A7154BD25165Q34497524-5677DC5E-9026-4E9D-A27F-FA8032F78FD0Q34529928-38A717FB-349D-4D73-96D8-749E840E7F14Q34636456-C6B369E2-D1F9-4B17-B1CF-40906F88AAEBQ34977461-6E6AFA52-853A-4DF1-8728-68CB431DD16FQ35005439-2ED7F461-E30F-4BE7-8590-A1F4AA8F47E0Q35011533-9E1316AE-B0F7-4087-AE37-CE2A12C5B4CDQ35058632-EC10A7B8-45BD-4A6E-A4A2-FDC41BC07BE6Q35168343-10710511-6F20-492C-8EBE-20C81E58EB82Q35662809-1D2411DE-EC54-4982-957B-6EB80ECD1E8FQ36314771-89C8FBBE-C559-4962-978F-CC442892A160Q38218293-00D9DC34-DD1D-4229-97D4-FCA58F4F1795Q38518060-E23ACD94-9E2F-417A-AA61-D8AB4E290373Q41949939-1DB55E66-43D3-4D8D-842E-C6097B9C54BDQ43227038-3D1654C4-CE53-4B9C-8DA8-597EB528AE0CQ43945684-A9700C29-3632-44B4-AE0C-AF997AA025ACQ52660749-BA0614E5-F34D-453F-8344-36EB930E040AQ57004719-447CC3D9-27B8-447C-B59C-C43EC609644A
P2860
description
2004 nî lūn-bûn
@nan
2004 թուականին հրատարակուած գիտական յօդուած
@hyw
2004 թվականին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Call for an enzyme genomics initiative
@ast
Call for an enzyme genomics initiative
@en
Call for an enzyme genomics initiative
@nl
type
label
Call for an enzyme genomics initiative
@ast
Call for an enzyme genomics initiative
@en
Call for an enzyme genomics initiative
@nl
prefLabel
Call for an enzyme genomics initiative
@ast
Call for an enzyme genomics initiative
@en
Call for an enzyme genomics initiative
@nl
P2860
P3181
P356
P1433
P1476
Call for an enzyme genomics initiative
@en
P2860
P2888
P3181
P356
10.1186/GB-2004-5-8-401
P407
P577
2004-01-01T00:00:00Z
P5875
P6179
1009313320