A null mutation in the first enzyme of flavonoid biosynthesis does not affect male fertility in Arabidopsis.
about
Flavonoids: biosynthesis, biological functions, and biotechnological applicationsFlavonoids act as negative regulators of auxin transport in vivo in arabidopsisFunctional conservation of plant secondary metabolic enzymes revealed by complementation of Arabidopsis flavonoid mutants with maize genesChalcone synthase and its functions in plant resistanceStrigolactones: chemical signals for fungal symbionts and parasitic weeds in plant rootsTapetosomes in Brassica tapetum accumulate endoplasmic reticulum-derived flavonoids and alkanes for delivery to the pollen surfaceMutations that reduce sinapoylmalate accumulation in Arabidopsis thaliana define loci with diverse roles in phenylpropanoid metabolismFlavonoid accumulation patterns of transparent testa mutants of arabidopsisPost-transcriptional silencing of flavonol synthase mRNA in tobacco leads to fruits with arrested seed setMetabolome analysis of biosynthetic mutants reveals a diversity of metabolic changes and allows identification of a large number of new compounds in Arabidopsis.Excision of an active CACTA-like transposable element from DFR2 causes variegated flowers in soybean [Glycine max (L.) Merr.].Analysis of T-DNA alleles of flavonoid biosynthesis genes in Arabidopsis ecotype Columbia.The metabolic basis of pollen thermo-tolerance: perspectives for breeding.The Heterologous Expression of the Chrysanthemum R2R3-MYB Transcription Factor CmMYB1 Alters Lignin Composition and Represses Flavonoid Synthesis in Arabidopsis thaliana.A flavonoid 3-O-glucoside:2"-O-glucosyltransferase responsible for terminal modification of pollen-specific flavonols in Arabidopsis thalianaIdentification of the pr1 gene product completes the anthocyanin biosynthesis pathway of maize.Unity in diversity, a systems approach to regulating plant cell physiology by 2-oxoglutarate-dependent dioxygenasesCis-regulatory evolution of chalcone-synthase expression in the genus ArabidopsisSulfinylated azadecalins act as functional mimics of a pollen germination stimulant in Arabidopsis pistils.Knock-out mutants from an En-1 mutagenized Arabidopsis thaliana population generate phenylpropanoid biosynthesis phenotypes.Interactions among enzymes of the Arabidopsis flavonoid biosynthetic pathwayAnthocyanin inhibits propidium iodide DNA fluorescence in Euphorbia pulcherrima: implications for genome size variation and flow cytometry.Pathfinding in angiosperm reproduction: pollen tube guidance by pistils ensures successful double fertilization.Natural variation in flavonol accumulation in Arabidopsis is determined by the flavonol glucosyltransferase BGLU6.The Arabidopsis UDP-glycosyltransferases UGT79B2 and UGT79B3, contribute to cold, salt and drought stress tolerance via modulating anthocyanin accumulation.Mutants of Arabidopsis as tools to understand the regulation of phenylpropanoid pathway and UVB protection mechanisms.Evolution and expression of tandem duplicated maize flavonol synthase genes.Functional diversification of duplicated chalcone synthase genes in anthocyanin biosynthesis of Gerbera hybrida.Differential regulation of closely related R2R3-MYB transcription factors controls flavonol accumulation in different parts of the Arabidopsis thaliana seedling.An Arabidopsis flavonoid transporter is required for anther dehiscence and pollen development.LAP6/POLYKETIDE SYNTHASE A and LAP5/POLYKETIDE SYNTHASE B encode hydroxyalkyl α-pyrone synthases required for pollen development and sporopollenin biosynthesis in Arabidopsis thaliana.The growth reduction associated with repressed lignin biosynthesis in Arabidopsis thaliana is independent of flavonoids.LAP5 and LAP6 encode anther-specific proteins with similarity to chalcone synthase essential for pollen exine development in Arabidopsis.Cloning and characterization of a UV-B-inducible maize flavonol synthase.Similar stress responses are elicited by copper and ultraviolet radiation in the aquatic plant Lemna gibba: implication of reactive oxygen species as common signals.Transcriptional profiling of cork oak phellogenic cells isolated by laser microdissection.Allele-specific assay reveals functional variation in the chalcone synthase promoter of Arabidopsis thaliana that is compatible with neutral evolution.The anthocyanin reduced tomato mutant demonstrates the role of flavonols in tomato lateral root and root hair development.Transcriptome profile analysis reveals the regulation mechanism of floral sex differentiation in Jatropha curcas L.The homeotic protein AGAMOUS controls late stamen development by regulating a jasmonate biosynthetic gene in Arabidopsis.
P2860
Q21129214-6F4489E8-A938-4DAA-83DE-813061ACE9A4Q24524145-C4DB0FAB-AC65-458B-B93E-6BBE790263B0Q24531914-25B0222E-29AF-45D7-B190-26418064252BQ24624552-2D7035D8-19B7-4E92-B604-63DC50E6B070Q24648811-CA002633-4FB6-4139-AF98-0A1B27ECCA65Q24669602-BD21DAE4-5191-49D2-9191-79AC5328F666Q28344623-D4C84E83-B562-40AA-B853-FFFE00A94B6CQ28366646-ABEDF911-8D1E-4840-9D28-19E621AE6939Q28478216-03AFC0CE-D67E-421D-AD07-7FCD425ADE23Q30319518-3DB51AEE-81C3-4803-A45D-C2D6B34A6824Q33628496-BAAE3056-B8E5-4072-832C-42F124B55BD0Q34402932-AF4C5913-8335-449D-B17F-8039DD2E903EQ34785730-8DFF2FF3-7AA3-440F-BCE0-E5F395EC9C68Q34804646-6582A53E-1C3E-4DA4-8669-686DA5FFCEBDQ34808275-FAB3985A-1D06-480A-BC85-7AB295350E4BQ35060070-B369B83A-89F3-447F-9E08-7044DF7BB863Q35166815-C4C54062-4B51-4C1C-8D9B-B82C468369B0Q35221626-EC6EBA93-BC3F-413F-A1E7-B8EB3D9AD597Q35577189-5AA581B5-83B7-4969-A366-41E21846AC96Q36524842-C38F5BBA-4EB8-4FDB-9ED6-8874BC80A931Q36564216-5AD894AE-86D0-4080-8155-6EB929870089Q37260715-ACB23EBD-6F9D-41B8-BF87-AEE309AA7F1AQ38117121-11ACEE61-0D75-4A28-87E9-3BA2B4E47A2EQ38586427-9C163677-3941-44B1-8AAF-DD901EDC3506Q39176230-4105741E-6267-480D-9436-34545F982328Q41473529-E44E5162-5FED-414D-A1D9-A0783E8E1405Q42144321-A520022C-0825-40E8-A4B5-598515C54221Q42253790-B2D98A9D-D214-4FFF-A5C4-BDDF66DB3C42Q42375507-383CCF65-8AD2-41BB-BFC5-C67CD46555AAQ42573285-C81AE4DF-49E2-495A-9C81-379D055BDEA9Q42769582-2B946DFB-1146-4941-B37F-9F297411552BQ43050690-5934AB0D-FB39-4FF2-8D96-D1679DB49F18Q43074244-597E921B-0FC2-4D41-8E23-9A40C4E6AC60Q43199191-1FF5F781-6B67-4B05-BFE1-826BD4665126Q44710719-96D1293C-F96A-43D2-82E2-C583F812867EQ45069508-20F9893A-56B5-43AA-AE56-C979C03D06DAQ45261390-ED04EFAB-18B5-441F-A8A5-6DCB41BDE410Q46868795-FAA45AC2-C433-4E1A-B623-9E0DB5C7DA08Q46912149-8F9B0CF7-88BD-452C-A1CF-FFDC312B991FQ46915211-8A743645-58A4-482F-B75F-BB763284068D
P2860
A null mutation in the first enzyme of flavonoid biosynthesis does not affect male fertility in Arabidopsis.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh-hant
name
A null mutation in the first e ...... male fertility in Arabidopsis.
@en
A null mutation in the first e ...... male fertility in Arabidopsis.
@nl
type
label
A null mutation in the first e ...... male fertility in Arabidopsis.
@en
A null mutation in the first e ...... male fertility in Arabidopsis.
@nl
prefLabel
A null mutation in the first e ...... male fertility in Arabidopsis.
@en
A null mutation in the first e ...... male fertility in Arabidopsis.
@nl
P2093
P2860
P356
P1433
P1476
A null mutation in the first e ...... male fertility in Arabidopsis.
@en
P2093
Burbulis IE
Iacobucci M
Shirley BW
P2860
P304
P356
10.1105/TPC.8.6.1013
P577
1996-06-01T00:00:00Z