Biosynthesis, regulation and functions of tocochromanols in plants.
about
Plastid lipid droplets at the crossroads of prenylquinone metabolismRegulatory network of secondary metabolism in Brassica rapa: insight into the glucosinolate pathwaySubgenome-specific assembly of vitamin E biosynthesis genes and expression patterns during seed development provide insight into the evolution of oat genomeSalt and genotype impact on antioxidative enzymes and lipid peroxidation in two rice cultivars during de-etiolation.Tocochromanols in wood: a potential new tool for dendrometabolomics.Tocochromanols: rancid lipids, seed longevity, and beyond.The Biosynthetic Pathways for Shikimate and Aromatic Amino Acids in Arabidopsis thaliana.Nutrigenomics of extra-virgin olive oil: A review.Genetic dissection of vitamin E biosynthesis in tomato.Accumulation of γ- rather than α-tocopherol alters ethylene signaling gene expression in the vte4 mutant of Arabidopsis thalianaDeep sequencing transcriptional fingerprinting of rice kernels for dissecting grain quality traits.Roles of MPBQ-MT in Promoting α/γ-Tocopherol Production and Photosynthesis under High Light in Lettuce.Lipid Antioxidant and Galactolipid Remodeling under Temperature Stress in Tomato PlantsInterspecific variation in vitamin E levels and the extent of lipid peroxidation in pioneer and non-pioneer species used in tropical forest restoration.Tocopherol Cyclases-Substrate Specificity and Phylogenetic Relations.Molecular cloning and heterologous expression analysis of JrVTE1 gene from walnut (Juglans regia)Efficient metabolic pathway engineering in transgenic tobacco and tomato plastids with synthetic multigene operons.Mechanisms for the prevention of vitamin E excessInteractions between α-tocopherol, polyunsaturated fatty acids, and lipoxygenases during embryogenesis.The isoprenoid-precursor dependence of Plasmodium spp.Control limits for accumulation of plant metabolites: brute force is no substitute for understanding.Plant amino acid-derived vitamins: biosynthesis and function.Selection and molecular characterization of a high tocopherol accumulation rice mutant line induced by gamma irradiation.Increases in both acute and chronic temperature potentiate tocotrienol concentrations in wild barley at 'Evolution Canyon'.Relationship between leaf optical properties, chlorophyll fluorescence and pigment changes in senescing Acer saccharum leaves.Combined transcript, proteome, and metabolite analysis of transgenic maize seeds engineered for enhanced carotenoid synthesis reveals pleotropic effects in core metabolism.Role of plastoglobules in metabolite repair in the tocopherol redox cycle.Oxidative Stress: Harms and Benefits for Human HealthInfluence of Climate, Variety and Production Process on Tocopherols, Plastochromanol-8 and Pigments in Flaxseed Oil.A candidate gene-based association study of tocopherol content and composition in rapeseed (Brassica napus).Plant tolerance to excess light energy and photooxidative damage relies on plastoquinone biosynthesisExpression of γ-tocopherol methyltransferase in chloroplasts results in massive proliferation of the inner envelope membrane and decreases susceptibility to salt and metal-induced oxidative stresses by reducing reactive oxygen species.Genetic analysis of health-related secondary metabolites in a Brassica rapa recombinant inbred line population.Distinct detoxification mechanisms confer resistance to mesotrione and atrazine in a population of waterhemp.A chloroplast ABC1-like kinase regulates vitamin E metabolism in Arabidopsis.Recent Advances in our Understanding of Tocopherol Biosynthesis in Plants: An Overview of Key Genes, Functions, and Breeding of Vitamin E Improved Crops.Overlapping photoprotective function of vitamin E and carotenoids in Chlamydomonas.Metabolic Origins and Transport of Vitamin E Biosynthetic Precursors.Evaluation of Biosynthesis, Accumulation and Antioxidant Activityof Vitamin E in Sweet Corn (Zea mays L.) during Kernel Development.Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis.
P2860
Q26995630-E9F9C64F-3C2D-4839-A5A6-507ED36FC26EQ28542968-31A9F182-9E59-42D9-8ED4-397771D22850Q28822052-C741C2D6-6AC0-43E1-8766-ACB23F104B6CQ30224695-31595B67-91F6-42FD-93A8-E36FF44B1AC7Q30872295-C10BC730-3EC3-4073-A09C-9F716B18D275Q34241414-99905FE0-8D82-4C92-B145-E84C7BA84A0DQ34251822-E0B0FB4D-4C49-42DE-B3C6-D0232AB8BD76Q34539068-7F4DA99E-630B-48FE-9BE7-EC354D8014ABQ35099359-EE718AB6-34A4-49B5-8BC0-7E1719C9226FQ35157138-BC75B9E3-4A35-440C-BB95-C7B52FA85314Q35874298-CFA0165D-7A38-4EB7-8D46-F38BE160742BQ35920873-C03A8370-C392-4171-8E1C-08EB953451ADQ35939236-484A0916-FDDC-4145-B008-3290D4681741Q35981696-93039804-E471-497C-B7E1-C133DEB9702FQ36086961-0E914B16-5975-4AB0-BC0A-B5C44775ED42Q36289992-311B613F-1595-442C-A37C-995689981631Q36637589-181FC5FE-02A1-455D-A22A-F50DFBD9CE7AQ37076463-DDBE9367-208A-4C7E-9881-7DD10814B63CQ37416809-541015B2-1DA0-492A-AE11-B4AE3D66F92BQ38007363-767E821C-60FB-4978-8B2C-C1C79A64DEA2Q38072750-BD5B25C3-C3D4-4B67-8F07-041EAA2CBB7AQ38173828-02F9B4BD-7F48-43F7-B3DA-3DF4107436FDQ38305214-D7CABF12-68C3-4DFB-B843-68BC763CC99CQ39342264-BB00642B-4195-4E3D-9BB5-3758929AB4FCQ40356270-77D4C4E3-5E8A-4028-BD4C-6D05C621EEBEQ41184414-09E9C4C9-9BAD-459E-B9DE-5957B7A89127Q41211590-2D5B5A17-556A-4144-BCE8-83DB1336F0CAQ41341951-5CC49605-5D0A-474C-A398-7BC36F24856DQ41571883-DD7A0BED-B8D5-45D7-A83A-1EEDF12F924AQ41819492-10FA337C-8932-4D09-AD66-028161A626B7Q41834897-D90C9F02-F1CD-4E00-8B5C-E0F0A42B0A41Q42550954-3F8EFFED-F870-4C62-9511-1BEC75A8B9E0Q42580590-B6D091AF-FC37-4E9E-B5B1-3F28D680C71BQ44565376-7FF168A6-C08E-4BD9-862E-D986BF610E57Q45003306-A269D4FD-142C-4A26-98B3-B70276A6A856Q46250271-05D2F5D4-19C1-4A44-A019-2741C3DE7FAAQ46829917-D793B76C-3A95-429A-8B8E-9580FBF418AFQ47144619-8CA155CD-86CC-4EF4-9B6A-C707CEB1FA30Q47232027-7C8A0062-50F4-4C79-AED7-000384D7312BQ48121826-1BF25878-8EB5-4AAB-8C90-075FCA967B80
P2860
Biosynthesis, regulation and functions of tocochromanols in plants.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 03 December 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Biosynthesis, regulation and functions of tocochromanols in plants.
@en
Biosynthesis, regulation and functions of tocochromanols in plants.
@nl
type
label
Biosynthesis, regulation and functions of tocochromanols in plants.
@en
Biosynthesis, regulation and functions of tocochromanols in plants.
@nl
prefLabel
Biosynthesis, regulation and functions of tocochromanols in plants.
@en
Biosynthesis, regulation and functions of tocochromanols in plants.
@nl
P1476
Biosynthesis, regulation and functions of tocochromanols in plants.
@en
P2093
Dean DellaPenna
Laurent Mène-Saffrané
P304
P356
10.1016/J.PLAPHY.2009.11.004
P577
2009-12-03T00:00:00Z