The Arabidopsis LUT1 locus encodes a member of the cytochrome p450 family that is required for carotenoid epsilon-ring hydroxylation activity
about
Metabolic engineering of potato carotenoid content through tuber-specific overexpression of a bacterial mini-pathwayThe Selaginella genome identifies genetic changes associated with the evolution of vascular plantsA chromoplast-specific carotenoid biosynthesis pathway is revealed by cloning of the tomato white-flower locusCytochromes p450A quadruple mutant of Arabidopsis reveals a β-carotene hydroxylation activity for LUT1/CYP97C1 and a regulatory role of xanthophylls on determination of the PSI/PSII ratio.Metabolic engineering of potato tuber carotenoids through tuber-specific silencing of lycopene epsilon cyclaseAn extensive (co-)expression analysis tool for the cytochrome P450 superfamily in Arabidopsis thalianaRegulation of carotenoid composition and shoot branching in Arabidopsis by a chromatin modifying histone methyltransferase, SDG8.Carotenoid composition and carotenogenic gene expression during Ipomoea petal development.Molecular cloning and functional characterization of the lycopene ε-cyclase gene via virus-induced gene silencing and its expression pattern in Nicotiana tabacum.Synergistic interactions between carotene ring hydroxylases drive lutein formation in plant carotenoid biosynthesis.De novo sequencing and analysis of the Ulva linza transcriptome to discover putative mechanisms associated with its successful colonization of coastal ecosystems.Defining the primary route for lutein synthesis in plants: the role of Arabidopsis carotenoid beta-ring hydroxylase CYP97A3Genome wide transcriptome analysis reveals ABA mediated response in Arabidopsis during gold (AuCl(-) 4) treatmentA foundation for provitamin A biofortification of maize: genome-wide association and genomic prediction models of carotenoid levelsTranscriptome analysis of Barbarea vulgaris infested with diamondback moth (Plutella xylostella) larvae.Identification of Yellow Pigmentation Genes in Brassica rapa ssp. pekinensis Using Br300 Microarray.Cloning and Functional Characterization of the Maize (Zea mays L.) Carotenoid Epsilon Hydroxylase GeneGlobal transcriptome analysis profiles metabolic pathways in traditional herb Astragalus membranaceus Bge. var. mongolicus (Bge.) Hsiao.Carotenoid biosynthetic genes in Brassica rapa: comparative genomic analysis, phylogenetic analysis, and expression profilingCarotenoid biosynthesis in Arabidopsis: a colorful pathway.Expression and functional analysis of citrus carotene hydroxylases: unravelling the xanthophyll biosynthesis in citrus fruits.De Novo Transcriptome Sequencing of the Orange-Fleshed Sweet Potato and Analysis of Differentially Expressed Genes Related to Carotenoid BiosynthesisCloning of the Lycopene β-cyclase Gene in Nicotiana tabacum and Its Overexpression Confers Salt and Drought Tolerance.Carotenoid accumulation and function in seeds and non-green tissues.Cloning and comparative analysis of carotenoid β-hydroxylase genes provides new insights into carotenoid metabolism in tetraploid (Triticum turgidum ssp. durum) and hexaploid (Triticum aestivum) wheat grains.Evolutionary origins, molecular cloning and expression of carotenoid hydroxylases in eukaryotic photosynthetic algae.A carotenogenic mini-pathway introduced into white corn does not affect development or agronomic performance.Mechanistic aspects of carotenoid biosynthesis.Periodic root branching in Arabidopsis requires synthesis of an uncharacterized carotenoid derivativeChemistry and biotechnology of carotenoids.Carotenoid Distribution in Nature.Characterization of the beta-carotene hydroxylase gene DSM2 conferring drought and oxidative stress resistance by increasing xanthophylls and abscisic acid synthesis in rice.Photosynthetic fuel for heterologous enzymes: the role of electron carrier proteins.Carotenoids biosynthesis and cleavage related genes from bacteria to plants.Biosynthetic routes of hydroxylated carotenoids (xanthophylls) in Marchantia polymorpha, and production of novel and rare xanthophylls through pathway engineering in Escherichia coli.Escherichia coli as a platform for functional expression of plant P450 carotene hydroxylases.Gene cloning, sequence analysis, and expression profiles of a novel β-ring carotenoid hydroxylase gene from the photoheterotrophic green alga Chlorella kessleri.Gene coexpression analysis reveals complex metabolism of the monoterpene alcohol linalool in Arabidopsis flowers.A rice cytochrome P450 OsCYP84A that may interact with the UV tolerance pathway.
P2860
Q21144759-4F55055F-50D7-4B0D-AFA4-CDC4ECB54B53Q22065618-F374F5D4-E72E-4A69-BD77-14B95167EB98Q24681908-3E186977-6EEB-4A22-A799-EAE94CA54DA1Q28732352-688CA2B1-3443-4572-B8F5-C744F0037B51Q30395321-D54F56F8-7414-4A62-A61B-3D75FA70F5FFQ33247977-60014AE4-71FC-47FC-AA63-82ADB4515E2FQ33330503-6E4AF429-E8D0-4F6E-99EE-8704A788A175Q33346655-F9F9AE1E-2202-419C-A343-F1CB91E540B8Q33621655-C7F696AC-EF62-40C2-AB62-A1B5E2CF62F5Q34158703-B888A848-F63F-40E4-8B6F-57DD5D834F80Q34333965-8DBA12B6-BC8B-4BE9-8982-AED20331C89AQ34457736-3E462576-3026-4B0B-A7C0-F6080054652DQ34480258-E022C26E-330E-424F-9C09-4EDC1D663110Q34582669-25BED415-6C26-4B27-8F7B-ADD22E7D0BADQ34636291-83EBC5ED-6B08-413F-AB78-B872C47D76A3Q34734210-BB1A189E-36AA-4C5B-8EC6-CDAA6E658DFFQ34979947-BACC0184-F688-41F6-8530-89EE3F1F93F3Q35648286-7F4FC97A-7F5F-4593-B0DF-F905AFEDD601Q35671146-1D309818-AB83-4255-95D6-6CD3DF1A130BQ35681939-91A126C4-2B4A-48A5-B3A5-074D779C66A1Q35952840-583DB9DC-5BF3-4C56-A640-9A3B4F4D5A2FQ36064463-F35589C3-E562-443C-A4D4-B40C865A5B68Q36327974-A06A28C6-199B-4632-BC90-F0980B66F477Q36404367-1AA792AD-D0EF-4768-85DA-DC0928226F58Q36642392-BED15983-DC20-4E48-8F7F-8B6D23CBD967Q36664691-1523F6A3-F42E-44C7-93DD-E5FCF1107492Q37057203-68409BCE-4029-440C-9F1F-D51AE125E677Q37476158-E3ACA912-0099-4ECA-84C3-296C5DDA0ACAQ37503777-B645BC2C-7149-48B8-A79D-FAE22762D421Q37687691-9A184949-7DAA-4305-A64C-72754A7D70FEQ37787104-63584891-ADAD-49F0-9067-967511D905A4Q38916565-860B8955-D0D5-44BD-B7B4-7365D547B0D8Q38978404-B0CC72BA-5D8F-4612-B3C7-DB8382559D97Q39174679-CB2CD9BB-15A7-4A1E-B2F7-F4C674A407DFQ39369503-41B14963-0CA1-47E0-96EF-DDA54AB73A80Q41734716-25A84C78-0C7D-43F2-BBF7-D228387C5419Q42607784-9F800F3A-80C0-4C5A-BEB5-FF1AC5F11730Q42685330-83422D6C-D5F1-4100-BF80-B53025C69EF4Q43821770-5E06493E-F146-4D1C-A4DB-47A95937C450Q44396689-B6C020FC-BFD8-465F-9129-20D26693DA7F
P2860
The Arabidopsis LUT1 locus encodes a member of the cytochrome p450 family that is required for carotenoid epsilon-ring hydroxylation activity
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունվարին 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
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@ast
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@en
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@nl
type
label
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@ast
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@en
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@nl
prefLabel
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@ast
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@en
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@nl
P2093
P2860
P3181
P356
P1476
The Arabidopsis LUT1 locus enc ...... on-ring hydroxylation activity
@en
P2093
Dean DellaPenna
Joonyul Kim
Maria Magallanes-Lundback
Valeria Musetti
P2860
P3181
P356
10.1073/PNAS.2237237100
P407
P577
2004-01-06T00:00:00Z