Expression of an Antirrhinum dihydroflavonol reductase gene results in changes in condensed tannin structure and accumulation in root cultures of Lotus corniculatus (bird's foot trefoil)

Condensed tannin (proanthocyanidins) are an important factor in the nutritive and dietary quality of many forage crops. We report here experiments aimed at altering the levels and monomer composition of condensed tannin (CTs) in 'hairy root' cultures of Lotus corniculatus (bird's foot...

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Bibliographic Details
Published in:Plant molecular biology 1997-11, Vol.35 (4), p.443-458
Main Authors: Bavage, A.D, Davies, I.G, Robbins, M.P, Morris, P
Format: Article
Language:English
Subjects:
Alcohol Oxidoreductases - genetics
Amino Acid Sequence
amino acid sequences
Antirrhinum majus
Benzopyrans - analysis
Birds
chemical constituents of plants
chemical structure
complementary DNA
Culture Techniques
Fabaceae - genetics
Fabaceae - growth & development
Fabaceae - metabolism
Forage crops
genbank/x97576
gene expression
Gene Expression Regulation, Plant - physiology
gene transfer
Genes, Plant - genetics
genetic transformation
Genetics
hairy roots
Lotus corniculatus
Magnoliopsida - enzymology
Magnoliopsida - genetics
Models, Chemical
Molecular Sequence Data
nucleotide sequences
oxidoreductases
Plant Roots - cytology
Plant Roots - metabolism
Plants, Genetically Modified
Plants, Medicinal
Proanthocyanidins
Restriction Mapping
Rhizobium rhizogenes
RNA, Messenger - analysis
RNA, Plant - analysis
roots
Sequence Homology, Amino Acid
Tannins
Tannins - chemistry
Tannins - metabolism
tissue culture
transgenic plants
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Summary:Condensed tannin (proanthocyanidins) are an important factor in the nutritive and dietary quality of many forage crops. We report here experiments aimed at altering the levels and monomer composition of condensed tannin (CTs) in 'hairy root' cultures of Lotus corniculatus (bird's foot trefoil) using genetic manipulation. An Antirrhinum majus dihydroflavonol reductase (DFR) cDNA was expressed in sense in L. corniculatus and CT levels in transgenic root cultures were analysed. Two co-transformed lines were noted with decreased CT content relative to controls and these levels were comparable with antisense-DFR phenotypes. In ADFR10, a co-transformed line with the highest CT levels, CT structure was altered in a manner consistent with the substrate specificity of the introduced gene; that is an increase in pro-pelargonidin monomers noted after hydrolysis of CTs. RT-PCR confirmed the expression of endogenous DFR gene(s) in both putatively co-suppressed lines and also in ADFR10. Analysis of selected root culture lines indicated that the monomer composition of CTs did not change during growth and development but that levels of CTs varied in a regulated manner.
ISSN:0167-4412
1573-5028
DOI:10.1023/A:1005841214470