Recent advances in ascorbate biosynthesis and the physiological significance of ascorbate peroxidase in photosynthesizing organisms.
about
Strategies to increase vitamin C in plants: from plant defense perspective to food biofortificationAscorbate as seen through plant evolution: the rise of a successful molecule?Transcriptomic analysis of metabolic function in the giant kelp, Macrocystis pyrifera, across depth and seasonEuglena gracilis ascorbate peroxidase forms an intramolecular dimeric structure: its unique molecular characterization.In search of tail-anchored protein machinery in plants: reevaluating the role of arsenite transporters.PGPR strain Paenibacillus polymyxa SQR-21 potentially benefits watermelon growth by re-shaping root protein expression.Gene expression in developing fibres of Upland cotton (Gossypium hirsutum L.) was massively altered by domestication.Apoplast proteome reveals that extracellular matrix contributes to multistress response in poplarRNAseq analysis reveals pathways and candidate genes associated with salinity tolerance in a spaceflight-induced wheat mutant.Transcriptional Profiling and Identification of Heat-Responsive Genes in Perennial Ryegrass by RNA-Sequencing.De novo transcriptomes of a mixotrophic and a heterotrophic ciliate from marine plankton.Comparative transcriptome analysis of green/white variegated sectors in Arabidopsis yellow variegated2: responses to oxidative and other stresses in white sectorsFrom climate change to molecular response: redox proteomics of ozone-induced responses in soybean.Arabidopsis CSN5B interacts with VTC1 and modulates ascorbic acid synthesis.Transcriptomic analysis of the primary roots of Alhagi sparsifolia in response to water stressTranscriptomic Analysis Reveals Possible Influences of ABA on Secondary Metabolism of Pigments, Flavonoids and Antioxidants in Tomato Fruit during RipeningIdentification of heat-responsive genes in carnation (Dianthus caryophyllus L.) by RNA-seqImpact of oxidative stress on ascorbate biosynthesis in Chlamydomonas via regulation of the VTC2 gene encoding a GDP-L-galactose phosphorylase.Identification and Comparative Analysis of H2O2-Scavenging Enzymes (Ascorbate Peroxidase and Glutathione Peroxidase) in Selected Plants Employing Bioinformatics ApproachesL-Ascorbate biosynthesis in higher plants: the role of VTC2.Reduction of methylviologen-mediated oxidative stress tolerance in antisense transgenic tobacco seedlings through restricted expression of StAPX.Arabidopsis phosphomannose isomerase 1, but not phosphomannose isomerase 2, is essential for ascorbic acid biosynthesisProteomic analysis of Fusarium oxysporum f. sp. cubense tropical race 4-inoculated response to Fusarium wilts in the banana root cells.Influence of heat stress on leaf ultrastructure, photosynthetic performance, and ascorbate peroxidase gene expression of two pear cultivars (Pyrus pyrifolia).Cloning and Expression Analysis of a Gene Encoding for Ascorbate Peroxidase and Responsive to Salt Stress in Beet (Beta vulgaris).Regulation of ascorbic acid synthesis in plants.Tail-anchored membrane proteins: exploring the complex diversity of tail-anchored-protein targeting in plant cells.The challenge of increasing vitamin C content in plant foods.The influence of metal stress on the availability and redox state of ascorbate, and possible interference with its cellular functions.Metal/metalloid stress tolerance in plants: role of ascorbate, its redox couple, and associated enzymes.Cellular redox regulation, signaling, and stress response in plants.The interplay of light and oxygen in the reactive oxygen stress response of Chlamydomonas reinhardtii dissected by quantitative mass spectrometry.Photosynthetic response to fluctuating environments and photoprotective strategies under abiotic stress.Catalase and ascorbate peroxidase-representative H2O2-detoxifying heme enzymes in plants.The accumulation of endogenous proline induces changes in gene expression of several antioxidant enzymes in leaves of transgenic Swingle citrumelo.Global regulation of reactive oxygen species scavenging genes in alfalfa root and shoot under gradual drought stress and recovery.Biochemical changes in grape rootstocks resulted from humic acid treatments in relation to nematode infection.Alternative pathways of dehydroascorbic acid degradation in vitro and in plant cell cultures: novel insights into vitamin C catabolism.Translocation and the alternative D-galacturonate pathway contribute to increasing the ascorbate level in ripening tomato fruits together with the D-mannose/L-galactose pathway.TaMDAR6 acts as a negative regulator of plant cell death and participates indirectly in stomatal regulation during the wheat stripe rust-fungus interaction.
P2860
Q21129209-3AF07874-037F-45A1-B904-1AFD759F0724Q26828982-060FADFA-FBAA-40B0-8BAE-8AB3DAA5EAEEQ28706065-D1C249E3-8C4A-481A-9DAE-2ADBCB2FD39BQ30383532-772B4F1B-3676-401C-9419-DF89C37AE467Q30844370-36753272-9559-417F-A784-8609B834C0C9Q33729121-D9E794CA-C362-4864-B19B-E1953219CE45Q33746965-720BDD9F-273C-4354-85CB-CB14361C3E77Q33757907-53DEF118-3A70-45B9-B5E4-D462F220D9A3Q33758891-163BBE1F-C02D-4B8D-9ED7-D80AAF19F7D0Q33820061-09BE17E6-40A3-4462-A2A8-773189F61184Q33831102-8691E282-3509-44D3-836D-7FB6CF224144Q34110744-9BAE3026-BBD4-46F8-8E7F-206FD249F9ABQ34137997-60083C81-9F48-4E5B-AEA9-DA07DA4505B2Q34592459-CA18A1ED-B922-499D-86F9-27A1BB37A1EDQ35589940-E6F5190E-6225-4CC7-BEB1-8F09D20FA7F6Q35656368-F13AFEF4-28A0-4AB8-8116-77DFEC122051Q35734364-52F02C6C-84A9-42DD-9AB2-F39A505013BEQ35922309-16212AFE-24C4-484F-BA1A-C736E9892825Q36713087-C36427B6-05A5-451A-93D6-22B989BDBC3DQ36973309-CD1C1D05-2891-45B3-A8D9-D09A74D11D99Q37004787-DA4F15C5-7A5A-42E6-9D10-134E5CC5FD0BQ37142483-2DA20470-38F2-48D5-967D-52F865186E59Q37363020-3CEEDDFA-0133-4714-9526-BED73EE944DFQ37392639-D794500B-31A8-45EB-BDB6-A003F7F06ED5Q37485310-B891E9D6-9FFB-4FEB-AE69-7493BAC5328DQ37538298-288CDC52-8686-4BB8-A8CA-CB398CF87D1CQ37794002-3F437DE2-8D97-4B81-82C5-725458CA547AQ38034478-B8CEB982-76B2-45D4-8D1B-D64EB6D6F764Q38091945-CDDF6D64-1DD9-4FB6-93C7-0F8C6BF06DB4Q38200517-731E8329-7CD9-45BE-A4F5-43878006116BQ38248232-185E1FCC-4EB9-4E74-9573-2C8BE4652977Q38629255-E842E0BE-1EDD-42EB-B34C-7A006E3BABAFQ38792574-F5BA2F95-24C4-4008-B1CB-CA5597984DDDQ38934144-3E129217-DE41-4CEB-B526-AAB3271FAFBFQ38964963-708CB975-866F-4884-A123-8771D1159B84Q39119456-A61DBD86-24A4-4B14-9FAC-4CF7E4DE7329Q39339031-8B379938-869E-4565-AA08-551393BAF7F7Q39717023-2011D9E5-321E-457A-87C6-4265250D1E16Q39980608-12DB5B2D-5BE5-43DB-BC63-0531834FAC79Q40836119-68825D92-2F90-4733-BB9C-DA624737413B
P2860
Recent advances in ascorbate biosynthesis and the physiological significance of ascorbate peroxidase in photosynthesizing organisms.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 May 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Recent advances in ascorbate b ...... n photosynthesizing organisms.
@en
Recent advances in ascorbate b ...... n photosynthesizing organisms.
@nl
type
label
Recent advances in ascorbate b ...... n photosynthesizing organisms.
@en
Recent advances in ascorbate b ...... n photosynthesizing organisms.
@nl
prefLabel
Recent advances in ascorbate b ...... n photosynthesizing organisms.
@en
Recent advances in ascorbate b ...... n photosynthesizing organisms.
@nl
P356
P1476
Recent advances in ascorbate b ...... n photosynthesizing organisms.
@en
P2093
Shigeru Shigeoka
Takahiro Ishikawa
P304
P356
10.1271/BBB.80062
P577
2008-05-07T00:00:00Z