Your search keyword '"Guillet-Claude C"' showing total 2 results

1. Genetic diversity associated with variation in silage corn digestibility for three O-methyltransferase genes involved in lignin biosynthesis.

Author

Guillet-Claude C, Birolleau-Touchard C, Manicacci D, Fourmann M, Barraud S, Carret V, Martinant JP, and Barrière Y

Subjects

Alleles, Amino Acid Substitution, Animal Feed analysis, Animals, Base Sequence, Cattle, Cell Wall metabolism, Chromosome Mapping, DNA, Plant genetics, Digestion, Genes, Plant, Genetic Variation, Linkage Disequilibrium, Methyltransferases metabolism, Polymorphism, Genetic, Promoter Regions, Genetic, Recombination, Genetic, Zea mays enzymology, Lignin biosynthesis, Methyltransferases genetics, Zea mays genetics, Zea mays metabolism

Abstract

Polymorphisms within three candidate genes for lignin biosynthesis were investigated to identify alleles useful for the improvement of maize digestibility. The allelic diversity of two caffeoyl-CoA 3-O-methyltransferase genes, CCoAOMT2 and CCoAOMT1, as well as that of the aldehyde O-methyltransferase gene, AldOMT, was evaluated for 34 maize lines chosen for their varying degrees of cell wall digestibility. Frequency of nucleotide changes averaged one SNP every 35 bp. Ninety-one indels were identified in non-coding regions and only four in coding regions. Numerous distinct and highly diverse haplotypes were identified at each locus. Numerous sites were in linkage disequilibrium that declined rapidly within a few hundred bases. For F4, an early flint French line with high cell wall digestibility, the CCoAOMT2 first exon presented many non-synonymous polymorphisms. Notably we found an 18-bp indel, which resembled a microsatellite and was associated with cell wall digestibility variation. Additionally, the CCoAOMT2 gene co-localized with a QTL for cell wall digestibility and lignin content. Together, these results suggest that genetic diversity investigated on a broader genetic basis could contribute to the identification of favourable alleles to be used in the molecular breeding of elite maize germplasm.

Published

2004

2. Genetic diversity associated with variation in silage corn digestibility for threeO-methyltransferase genes involved in lignin biosynthesis.

Author

Guillet-Claude, C., Birolleau-Touchard, C., Manicacci, D., Fourmann, M., Barraud, S., Carret, V., Martinant, J., and Barrière, Y.

Subjects

METHYLTRANSFERASES, TRANSFERASES, GENES, LIGNINS, GENETICS, GENOMICS, MOLECULAR genetics

Abstract

Polymorphisms within three candidate genes for lignin biosynthesis were investigated to identify alleles useful for the improvement of maize digestibility. The allelic diversity of two caffeoyl-CoA 3-O-methyltransferase genes,CCoAOMT2andCCoAOMT1, as well as that of the aldehydeO-methyltransferase gene,AldOMT, was evaluated for 34 maize lines chosen for their varying degrees of cell wall digestibility. Frequency of nucleotide changes averaged one SNP every 35 bp. Ninety-one indels were identified in non-coding regions and only four in coding regions. Numerous distinct and highly diverse haplotypes were identified at each locus. Numerous sites were in linkage disequilibrium that declined rapidly within a few hundred bases. For F4, an early flint French line with high cell wall digestibility, theCCoAOMT2first exon presented many non-synonymous polymorphisms. Notably we found an 18-bp indel, which resembled a microsatellite and was associated with cell wall digestibility variation. Additionally, theCCoAOMT2gene co-localized with a QTL for cell wall digestibility and lignin content. Together, these results suggest that genetic diversity investigated on a broader genetic basis could contribute to the identification of favourable alleles to be used in the molecular breeding of elite maize germplasm. [ABSTRACT FROM AUTHOR]

Published

2004