Primary or secondary? Versatile nitrilases in plant metabolism.
about
Nitrile hydratase genes are present in multiple eukaryotic supergroupsThe Mechanism of the Amidases: MUTATING THE GLUTAMATE ADJACENT TO THE CATALYTIC TRIAD INACTIVATES THE ENZYME DUE TO SUBSTRATE MISPOSITIONINGNitrilases in nitrile biocatalysis: recent progress and forthcoming researchThe multifunctional enzyme CYP71B15 (PHYTOALEXIN DEFICIENT3) converts cysteine-indole-3-acetonitrile to camalexin in the indole-3-acetonitrile metabolic network of Arabidopsis thaliana.Nitrilase enzymes and their role in plant-microbe interactionsGlucosinolate breakdown in Arabidopsis: mechanism, regulation and biological significanceTranscriptome Profiling of Wild Arachis from Water-Limited Environments Uncovers Drought Tolerance Candidate GenesCreation of a genome-wide metabolic pathway database for Populus trichocarpa using a new approach for reconstruction and curation of metabolic pathways for plants.Phenotypical and molecular responses of Arabidopsis thaliana roots as a result of inoculation with the auxin-producing bacterium Azospirillum brasilense.Non-specificity of ethylene inhibitors: 'double-edged' tools to find out new targets involved in the root morphogenetic programme.The β-cyanoalanine synthase pathway: beyond cyanide detoxification.RETRACTED ARTICLE: Beta-cyanoalanine synthase pathway as a homeostatic mechanism for cyanide detoxification as well as growth and development in higher plants.Bioengineering of Nitrilases Towards Its Use as Green Catalyst: Applications and Perspectives.Diversified glucosinolate metabolism: biosynthesis of hydrogen cyanide and of the hydroxynitrile glucoside alliarinoside in relation to sinigrin metabolism in Alliaria petiolata.Glucosinolate-related glucosides in Alliaria petiolata: sources of variation in the plant and different metabolism in an adapted specialist herbivore, Pieris rapae.Cyanogenic Glucosides and Derivatives in Almond and Sweet Cherry Flower Buds from Dormancy to Flowering.A Cyanide-Induced 3-Cyanoalanine Nitrilase in the Cyanide-Assimilating Bacterium Pseudomonas pseudoalcaligenes Strain CECT 5344Arabidopsis NITRILASE 1 Contributes to the Regulation of Root Growth and Development through Modulation of Auxin Biosynthesis in Seedlings.Beyond toxicity: a regulatory role for mitochondrial cyanide.The RON1/FRY1/SAL1 gene is required for leaf morphogenesis and venation patterning in Arabidopsis.An integrated and comparative approach towards identification, characterization and functional annotation of candidate genes for drought tolerance in sorghum (Sorghum bicolor (L.) Moench).Plant-derived auxin plays an accessory role in symptom development upon Rhodococcus fascians infection.Possible Interactions between the Biosynthetic Pathways of Indole Glucosinolate and Auxin.Proteome reference maps of the Lotus japonicus nodule and root.NITRILASE1 regulates the exit from proliferation, genome stability and plant development.Transient transcriptional regulation of the CYS-C1 gene and cyanide accumulation upon pathogen infection in the plant immune response.Substrate specificity of plant nitrilase complexes is affected by their helical twistBenzyl Cyanide Leads to Auxin-Like Effects Through the Action of Nitrilases in
P2860
Q21560966-99844F11-1A73-4F7F-818A-EBD55CC11E3EQ27679688-3D65660C-26C1-4BCC-ABC7-7C67959E7B65Q28710094-655778CE-6D26-4EE0-B49E-62AC5758D1F6Q30319074-B3ADB06B-4335-420C-8E4C-6086A714244AQ34160184-124DBE6F-BE37-4DDC-B389-F5F4420E16EFQ35630495-F14CF2ED-8729-492F-920F-3F7594906A20Q35890787-514BFB30-8340-455D-AF24-59D3C8847508Q38429319-63998276-9742-4857-9F94-295E8B869A45Q38483571-DE63F389-767F-42F1-B8DC-285040FFF7B4Q38598802-45BF589F-88C0-4E42-8E40-00B6B2DACCF7Q38818066-D35868A9-7B72-4E05-999B-3F84781DDF97Q38981710-4BF61B3E-5A1B-4A5D-8E22-FE4BA763065FQ39370716-AD068F06-E3F0-4DE4-A248-8951E9D93379Q41840265-02000E5F-80B0-4A4A-B9B6-0F586CB9CAE2Q42001209-1D00BF4A-47F6-471D-985E-BDBB4BDA4FDFQ42256025-B9CF356E-BED2-44D0-835A-EA6B40F02924Q42291202-93C8C689-385F-4CB4-B6F1-A3375C12365EQ42328482-514344D2-BB80-4086-9419-C8C63B4DFB2DQ42729399-FBAA9AF7-749B-4AF0-ABDB-E71F00E7BA74Q43203789-D2742B3D-0423-4CF4-B826-076AEEB227B9Q47107613-1AB81734-F7DC-4E14-9812-E570C748EB14Q49039023-93F42041-0A20-437D-9C53-1D0D439870CDQ49427946-D9409717-8047-4C9A-BE50-294FA4C312F2Q50482820-30441487-33C1-4E36-A5D3-B11522948864Q50757775-FF2D79D6-4ED0-49EB-A341-9168A94EB0C0Q50893218-8D219D6C-E939-443E-A83E-E6EC0EB079AFQ58700911-1BB42CDF-0B8E-4E31-9B20-DD0AD0D4D523Q58705531-38992562-B6D2-4F77-829E-1A5F920D2DB0
P2860
Primary or secondary? Versatile nitrilases in plant metabolism.
description
2008 nî lūn-bûn
@nan
2008 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Primary or secondary? Versatile nitrilases in plant metabolism.
@ast
Primary or secondary? Versatile nitrilases in plant metabolism.
@en
Primary or secondary? Versatile nitrilases in plant metabolism.
@nl
type
label
Primary or secondary? Versatile nitrilases in plant metabolism.
@ast
Primary or secondary? Versatile nitrilases in plant metabolism.
@en
Primary or secondary? Versatile nitrilases in plant metabolism.
@nl
prefLabel
Primary or secondary? Versatile nitrilases in plant metabolism.
@ast
Primary or secondary? Versatile nitrilases in plant metabolism.
@en
Primary or secondary? Versatile nitrilases in plant metabolism.
@nl
P1433
P1476
Primary or secondary? Versatile nitrilases in plant metabolism.
@en
P304
P356
10.1016/J.PHYTOCHEM.2008.08.020
P577
2008-10-06T00:00:00Z