The effect of sulfur nutrition on plant glucosinolate content: physiology and molecular mechanisms.
about
Fire and Brimstone: Molecular Interactions between Sulfur and Glucosinolate Biosynthesis in Model and Crop BrassicaceaeHealth-promoting compounds of broccoli (Brassica oleracea L. var. italica) plants as affected by nitrogen fertilisation in projected future climatic change environments.Tropaeolum tops tobacco - simple and efficient transgene expression in the order Brassicales.Isolation and characterization of low-sulphur-tolerant mutants of Arabidopsis.Potassium deficiency induces the biosynthesis of oxylipins and glucosinolates in Arabidopsis thalianaExotic plant invasion in the context of plant defense against herbivores.Integrated proteomics and metabolomics of Arabidopsis acclimation to gene-dosage dependent perturbation of isopropylmalate dehydrogenasesRNA-seq analysis of transcriptome and glucosinolate metabolism in seeds and sprouts of broccoli (Brassica oleracea var. italic)Spatial gene expression analysis in tomato hypocotyls suggests cysteine as key precursor of vascular sulfur accumulation implicated in Verticillium dahliae defense.Glucosinolate breakdown in Arabidopsis: mechanism, regulation and biological significanceQuantitative proteomics reveals the importance of nitrogen source to control glucosinolate metabolism in Arabidopsis thaliana and Brassica oleracea.Allyl-isothiocyanate treatment induces a complex transcriptional reprogramming including heat stress, oxidative stress and plant defence responses in Arabidopsis thaliana.Diurnal and light regulation of sulphur assimilation and glucosinolate biosynthesis in ArabidopsisGlucose signalling positively regulates aliphatic glucosinolate biosynthesis.Augmenting Sulfur Metabolism and Herbivore Defense in Arabidopsis by Bacterial Volatile SignalingGlucose enhances indolic glucosinolate biosynthesis without reducing primary sulfur assimilationSulfur deficiency-induced repressor proteins optimize glucosinolate biosynthesis in plants.Combined effect of Nitrogen, Phosphorus and Potassium fertilizers on the contents of glucosinolates in rocket salad (Eruca sativa Mill.).Siroheme: an essential component for life on earth.Stress enhances the synthesis of secondary plant products: the impact of stress-related over-reduction on the accumulation of natural products.The physiological importance of glucosinolates on plant response to abiotic stress in Brassica.Drought-Tolerant Brassica rapa Shows Rapid Expression of Gene Networks for General Stress Responses and Programmed Cell Death Under Simulated Drought Stress.Flowering Locus C (FLC) Is a Potential Major Regulator of Glucosinolate Content across Developmental Stages of Aethionema arabicum (Brassicaceae).Accumulation of silymarin in milk thistle seeds under drought stress.Agronomic and Seed Quality Traits Dissected by Genome-Wide Association Mapping in Brassica napus.Diversified glucosinolate metabolism: biosynthesis of hydrogen cyanide and of the hydroxynitrile glucoside alliarinoside in relation to sinigrin metabolism in Alliaria petiolata.Quantitative transcriptomic analysis of abscisic acid-induced and reactive oxygen species-dependent expression changes and proteomic profiling in Arabidopsis suspension cells.Glucosinolate-related glucosides in Alliaria petiolata: sources of variation in the plant and different metabolism in an adapted specialist herbivore, Pieris rapae.Potential impact of soil microbiomes on the leaf metabolome and on herbivore feeding behavior.Transcriptional profiles of Arabidopsis stomataless mutants reveal developmental and physiological features of life in the absence of stomata.The significance of glucosinolates for sulfur storage in Brassicaceae seedlings.Atmospheric H2S and SO2 as sulfur source for Brassica juncea and Brassica rapa: impact on the glucosinolate composition.Influence of Sulfur Induced Stress on Oxidative Status and Antioxidative Machinery in Leaves of Allium cepa LA complex interplay of three R2R3 MYB transcription factors determines the profile of aliphatic glucosinolates in Arabidopsis.Genes of primary sulfate assimilation are part of the glucosinolate biosynthetic network in Arabidopsis thaliana.Light and sucrose up-regulate the expression level of Arabidopsis cystathionine γ-synthase, the key enzyme of methionine biosynthesis pathway.Novel insights into the function of Arabidopsis R2R3-MYB transcription factors regulating aliphatic glucosinolate biosynthesis.Disruption of adenosine-5'-phosphosulfate kinase in Arabidopsis reduces levels of sulfated secondary metabolites.Sulfate determines the glucosinolate concentration of horseradish in vitro plants (Armoracia rusticana Gaertn., Mey. & Scherb.).Sulfur fertilization increases defense metabolites and nitrogen but decreases plant resistance against a host-specific insect.
P2860
Q28078339-A2FFD147-23C1-492D-B995-00CA35BC8601Q30886131-E04787C2-B45D-4B7A-8585-E34BC5768AE8Q31138729-7FD771D7-0F61-43F2-BDC6-7182B9E6F761Q33603983-2E8F7B81-C52F-4147-B3F6-163429D15106Q33654805-3656AF1E-411D-44AD-B686-686BBBED6418Q34132599-B04A3ECF-ECE1-4417-AD40-A9D14B299550Q34637593-C7D112A6-8B13-48F5-8F8F-9EB9548157C2Q35106310-B241DEDA-A4FF-4EE1-BEAE-2ABB7AE2137FQ35188417-FB6BF842-98EC-4F80-8C41-7175449A9F75Q35630495-065DB348-DBDF-4075-87C7-174D8A6ED1C8Q35991671-04852D83-71CC-4E22-B1C6-3E55D7E8C24EQ36136486-EE69F724-A3F8-4AA3-B3FE-316FC27BDFF2Q36634206-5ADD7707-1457-41C1-B32F-271B81D70BC8Q36634228-AC7C8242-5256-4B95-88E8-17A9F6772A94Q36777986-2882866F-0E06-4649-9289-72143361C008Q37195516-7B0732E9-42D9-451F-B53B-78362D4DD406Q37321601-90B7A853-A862-4691-9549-80158CB3901AQ37610881-F113BBB2-6659-4C32-A665-E648A8D14165Q37769110-68FCA059-1159-46EC-A490-3BEF25738BC5Q38101255-99757A60-572E-41EC-8150-EDE35F4E33A6Q38110726-6EF63839-A696-40F2-B5A4-BF73607062A4Q38430619-164F91B4-D1EB-4B33-8D7E-8070ADD3E9CDQ38672197-CC8F6906-A067-44B0-BA5C-3ED8D9E2830EQ39129766-9643F715-4EAA-4DF2-8C29-E1195060177AQ39706688-9F9D22B3-6E4C-491F-82D1-55B7C8BCEE14Q41840265-CA4FCD1A-A2EB-490D-BEC7-E91F4D48D838Q41842156-1A7F3C69-C027-4953-AA20-BC4D9F46935DQ42001209-C0629983-293F-47E7-99CD-D1906117A519Q42009892-47831158-A296-4065-BAF0-D19683F09030Q42051065-542BCEA2-00FE-4536-86A9-88DB9C05D8E9Q42108934-1B668798-FB6D-428D-8ED1-35D5BD67BC3BQ42601847-4E4C5AA2-C98E-4519-B7E8-958823FA076BQ42738111-3D354E3F-FAF2-4522-9D55-DF3A4D4A109DQ43116364-62EE51DF-399F-431D-8AF2-18804D07CDF1Q43204856-AB59FED3-CFE6-4338-9F56-08F7DAA43ED8Q44346780-2E9E2644-6EED-4A86-9092-7D86EC491CA8Q44680177-53A0CBE2-A0B2-4364-A2A5-94DBDC373640Q46079214-5267A86F-2225-411E-BCB9-D99420085A1DQ46153692-182DDB8B-A052-4187-A1CF-1BCE18FA3F62Q47419140-E83E7E95-A976-472B-BC7F-2CD3354FCF3F
P2860
The effect of sulfur nutrition on plant glucosinolate content: physiology and molecular mechanisms.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
The effect of sulfur nutrition ...... logy and molecular mechanisms.
@en
type
label
The effect of sulfur nutrition ...... logy and molecular mechanisms.
@en
prefLabel
The effect of sulfur nutrition ...... logy and molecular mechanisms.
@en
P2860
P356
P1433
P1476
The effect of sulfur nutrition ...... ology and molecular mechanisms
@en
P2093
P2860
P304
P356
10.1055/S-2007-965431
P577
2007-09-01T00:00:00Z