about
A Decade of Molecular Understanding of Withanolide Biosynthesis and In vitro Studies in Withania somnifera (L.) Dunal: Prospects and Perspectives for Pathway EngineeringTranscriptome analysis of medicinal plant Salvia miltiorrhiza and identification of genes related to tanshinone biosynthesisTowards Elucidating Carnosic Acid Biosynthesis in Lamiaceae: Functional Characterization of the Three First Steps of the Pathway in Salvia fruticosa and Rosmarinus officinalisUtility of a Phylogenetic Perspective in Structural Analysis of CYP72A Enzymes from Flowering PlantsFlavone synthases from Lonicera japonica and L. macranthoides reveal differential flavone accumulationGenome of the pitcher plant Cephalotus reveals genetic changes associated with carnivoryThe cytochrome P450 genes of channel catfish: their involvement in disease defense responses as revealed by meta-analysis of RNA-Seq data sets.MS26/CYP704B is required for anther and pollen wall development in bread wheat (Triticum aestivum L.) and combining mutations in all three homeologs causes male sterility.Identification of cucurbitacins and assembly of a draft genome for Aquilaria agallochaDraft genome sequence of eggplant (Solanum melongena L.): the representative solanum species indigenous to the old world.Coupling deep transcriptome analysis with untargeted metabolic profiling in Ophiorrhiza pumila to further the understanding of the biosynthesis of the anti-cancer alkaloid camptothecin and anthraquinonesTranscriptome analysis of Thapsia laciniata Rouy provides insights into terpenoid biosynthesis and diversity in ApiaceaeDe novo assembly and discovery of genes that are involved in drought tolerance in Tibetan Sophora moorcroftiana.CYP709B3, a cytochrome P450 monooxygenase gene involved in salt tolerance in Arabidopsis thaliana.Overexpression of the PP2A regulatory subunit Tap46 leads to enhanced plant growth through stimulation of the TOR signalling pathway.Transcriptome analysis of canola (Brassica napus) under salt stress at the germination stageBiphenyl 4-Hydroxylases Involved in Aucuparin Biosynthesis in Rowan and Apple Are Cytochrome P450 736A Proteins.Combined metabolome and transcriptome profiling provides new insights into diterpene biosynthesis in S. pomifera glandular trichomesCarotenoid biosynthesis in Arabidopsis: a colorful pathway.Genome-Wide Analysis, Classification, Evolution, and Expression Analysis of the Cytochrome P450 93 Family in Land Plants.Next generation sequencing in predicting gene function in podophyllotoxin biosynthesisCarnosic acid biosynthesis elucidated by a synthetic biology platformRNA-seq Transcriptome Analysis of Panax japonicus, and Its Comparison with Other Panax Species to Identify Potential Genes Involved in the Saponins Biosynthesis.Cytochrome P450 promiscuity leads to a bifurcating biosynthetic pathway for tanshinones.Partial Activation of SA- and JA-Defensive Pathways in Strawberry upon Colletotrichum acutatum Interaction.CB5C affects the glucosinolate profile in Arabidopsis thalianaElucidation of the biosynthesis of carnosic acid and its reconstitution in yeast.Assembly of Dynamic P450-Mediated Metabolons-Order Versus Chaos.Proteomics of nonmodel plant species.Plant P450s as versatile drivers for evolution of species-specific chemical diversity.Gene duplication leads to altered membrane topology of a cytochrome P450 enzyme in seed plants.Diversification of fruit shape in the Brassicaceae family.Progress in terpene synthesis strategies through engineering of Saccharomyces cerevisiae.Structure of the Arabidopsis thaliana NADPH-cytochrome P450 reductase 2 (ATR2) provides insight into its function.Heteroatom-Heteroatom Bond Formation in Natural Product Biosynthesis.In-depth proteome mining of cultured Catharanthus roseus cells identifies candidate proteins involved in the synthesis and transport of secondary metabolites.Mannitol Stress Directs Flavonoid Metabolism toward Synthesis of Flavones via Differential Regulation of Two Cytochrome P450 Monooxygenases in Coleus forskohliiDistinct evolutionary strategies in the GGPPS family from plants.Cytochrome P450 CYP71AT96 catalyses the final step of herbivore-induced phenylacetonitrile biosynthesis in the giant knotweed, Fallopia sachalinensis.Quantitative Disease Resistance under Elevated Temperature: Genetic Basis of New Resistance Mechanisms to Ralstonia solanacearum.
P2860
Q26774118-6075753A-2C94-4A6C-BC99-563482850F98Q28535270-E1EE530E-D7B9-4311-9AF1-2793C3FCC215Q28547594-AAC9E55F-4A28-422F-83BB-4765D31BFC5DQ28554345-005F0B2D-0A11-4E28-B718-1209CDF5E905Q28602726-60E4ABDA-4381-42B3-8A0D-361C0A9B3117Q28709882-F1A76403-D162-4A76-A2D7-2B8C727E7E7CQ30811241-41FF04CD-DD7A-44F3-B1BA-AD601FBBB655Q33693765-7E8C5A73-3807-414E-AD7E-9E1F2129015CQ33941500-A23268C0-ADC9-452F-A096-0A5EEF2CABCDQ34042077-41663255-D002-4A73-88FD-E4D7F5B4BA4AQ34624675-E8998CE7-384A-4472-8296-E6B6982BA0A4Q34734666-664A7C01-A04A-4A42-AE6F-502431FA6E58Q34822598-29ED8091-2DB4-4B55-AC73-26115F384CD8Q35027216-D1EC20D7-2519-4A52-9231-A638FAF2CEADQ35063417-C6959DE8-617F-4ED2-9B43-96774A851FE0Q35560652-C302A40B-CD74-4656-AD39-9A2E31F7231BQ35599425-A37C5EA1-61EA-4E3E-924F-12373C92047CQ35842628-DAF92D5E-B0AE-4CDD-ADE6-7D7B72DC1B2FQ35952840-F2D408D9-FFD7-4C96-BB87-73B202366297Q36167852-D9E07198-4B7C-4642-A2F6-4B1683583DA9Q36508687-5D943C7C-61B8-4144-B6AF-1D0E7C6C04DBQ36770736-218778FF-27AD-4EEC-99C7-1A34F05F59C5Q36789169-DB1E51E7-97BF-417A-B231-5729B55436ABQ37059691-6BB87797-B482-4E60-8721-288A920A0909Q37096010-6BF03C7C-63F0-4ADF-B6A8-1851AC92D0C0Q37255152-95F01B06-B137-4B2E-BDDF-0867097CECC0Q37329915-57DCB99D-6813-40D5-B3D1-8FC461FFEF16Q37643392-37001ED9-E329-45BB-8D54-FAE41B407CC1Q38057719-571CCEF1-EFF2-47A3-8ED3-1977C9B57F15Q38072419-47867C83-3211-49B4-9C0A-9A09B7A6C28EQ38785709-92F82BA3-2E4D-4F9F-92D6-647E2BA7DFE3Q38789460-F5CDD306-C435-42E8-9F06-8B9694532770Q38828293-41F41D34-4887-41DB-B8B1-289A80E86AEEQ39012305-92213237-70AD-4BE6-B768-C2B6618361C7Q39218600-B4BEC516-66EB-4F00-83C6-ED865EE1A6CBQ39264058-2F922627-1025-40C6-AE94-972D63101CC2Q39559784-279FF888-6EA4-4895-8993-28B20378B899Q39948943-0F8C4BDE-5D06-433A-A5ED-9E384B69526FQ39958222-86797304-F18D-467B-B170-4EC9C9EF94C5Q40063441-0592D4C8-7AE8-4438-9805-4BF5EB3CBB8D
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականին հրատարակուած գիտական յօդուած
@hyw
2011 թվականին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Cytochromes p450
@ast
Cytochromes p450
@en
Cytochromes p450
@nl
type
label
Cytochromes p450
@ast
Cytochromes p450
@en
Cytochromes p450
@nl
prefLabel
Cytochromes p450
@ast
Cytochromes p450
@en
Cytochromes p450
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
Cytochromes p450
@en
P2093
Danièle Werck-Reichhart
Gerard Bishop
Suzanne Paquette
P2860
P3181
P356
10.1199/TAB.0144
P407
P577
2011-10-06T00:00:00Z