scholarly article | Q13442814 |
P356 | DOI | 10.1104/PP.103.025361 |
P8608 | Fatcat ID | release_aouvdnwicfgbrlwtwzsyd4oqei |
P932 | PMC publication ID | 167084 |
P698 | PubMed publication ID | 12857826 |
P5875 | ResearchGate publication ID | 277433171 |
P2093 | author name string | Min Yu | |
Heather Ray | |||
Margaret Y Gruber | |||
Laureen Blahut-Beatty | |||
Alan Lloyd | |||
Bruce Coulman | |||
Neil Westcott | |||
Steve Bowley | |||
Brian McKersie | |||
Patricia Auser | |||
P2860 | cites work | Flavonoid biosynthesis. A colorful model for genetics, biochemistry, cell biology, and biotechnology | Q24679382 |
Role of anthocyanidin reductase, encoded by BANYULS in plant flavonoid biosynthesis | Q28203640 | ||
Progress in the molecular genetic analysis of trichome initiation and morphogenesis in Arabidopsis | Q33901063 | ||
Structural and functional characterization of the short acidic transcriptional activation region of yeast GCN4 protein | Q34172416 | ||
Lc, a member of the maize R gene family responsible for tissue-specific anthocyanin production, encodes a protein similar to transcriptional activators and contains the myc-homology region | Q34304059 | ||
Synthesis of 3,4-cis-[3H]leucocyanidin and enzymatic reduction to catechin | Q34363123 | ||
New perspectives on proanthocyanidin biochemistry and molecular regulation | Q35207812 | ||
An upstream open reading frame represses expression of Lc, a member of the R/B family of maize transcriptional activators | Q36519257 | ||
Molecular analysis of the maize anthocyanin regulatory locus C1. | Q37412034 | ||
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Analysis of bHLH and MYB domain proteins: species-specific regulatory differences are caused by divergent evolution of target anthocyanin genes | Q38335185 | ||
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The regulatory c1 locus of Zea mays encodes a protein with homology to myb proto-oncogene products and with structural similarities to transcriptional activators. | Q41355274 | ||
Role of mRNA secondary structure in translational repression of the maize transcriptional activator Lc(1,2). | Q42644726 | ||
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Arabidopsis and Nicotiana anthocyanin production activated by maize regulators R and C1 | Q43754336 | ||
Superoxide dismutase enhances tolerance of freezing stress in transgenic alfalfa (Medicago sativa L.). | Q44591999 | ||
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Cloning and nucleotide sequence of a cDNA encoding B-Peru, a regulatory protein of the anthocyanin pathway in maize | Q48220119 | ||
The Arabidopsis TT2 gene encodes an R2R3 MYB domain protein that acts as a key determinant for proanthocyanidin accumulation in developing seed | Q48343947 | ||
Sn, a maize bHLH gene, modulates anthocyanin and condensed tannin pathways in Lotus corniculatus. | Q52110975 | ||
Regulatory Genes Controlling Anthocyanin Pigmentation Are Functionally Conserved among Plant Species and Have Distinct Sets of Target Genes | Q59537736 | ||
The TT8 gene encodes a basic helix-loop-helix domain protein required for expression of DFR and BAN genes in Arabidopsis siliques | Q73102566 | ||
Differential modification of flavonoid and isoflavonoid biosynthesis with an antisense chalcone synthase construct in transgenic Lotus corniculatus | Q73828673 | ||
Chromatographic separation and automated analysis of flavanols | Q77375092 | ||
Production, faecal egg counts and worm burdens of ewe lambs which grazed six contrasting forages | Q77758092 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | anthocyanins | Q262547 |
P1104 | number of pages | 16 | |
P304 | page(s) | 1448-1463 | |
P577 | publication date | 2003-07-01 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | Expression of anthocyanins and proanthocyanidins after transformation of alfalfa with maize Lc. | |
P478 | volume | 132 |
Q52019207 | "HAIRY CANOLA"--Arabidopsis GL3 induces a dense covering of trichomes on Brassica napus seedlings. |
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Q46200032 | Expression of the R2R3-MYB transcription factor TaMYB14 from Trifolium arvense activates proanthocyanidin biosynthesis in the legumes Trifolium repens and Medicago sativa |
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Q34536447 | Functional characterization of proanthocyanidin pathway enzymes from tea and their application for metabolic engineering |
Q37729351 | Gene-Transformation-Induced Changes in Chemical Functional Group Features and Molecular Structure Conformation in Alfalfa Plants Co-Expressing Lc-bHLH and C1-MYB Transcriptive Flavanoid Regulatory Genes: Effects of Single-Gene and Two-Gene Insertion |
Q42116595 | Light-induced vegetative anthocyanin pigmentation in Petunia |
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Q50959569 | Maize Lc transcription factor enhances biosynthesis of anthocyanins, distinct proanthocyanidins and phenylpropanoids in apple (Malus domestica Borkh.). |
Q44933272 | Metabolic engineering of isoflavonoid biosynthesis in alfalfa |
Q28535323 | Metabolic engineering of the phenylpropanoid pathway enhances the antioxidant capacity of Saussurea involucrata |
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Q35207812 | New perspectives on proanthocyanidin biochemistry and molecular regulation |
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