1. Phenotypic and fine genetic characterization of the D locus controlling fruit acidity in peach
- Author
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K. Boudehri, Christelle Troadec, Abdelhafid Bendahmane, Annick Moing, Elisabeth Dirlewanger, Gaelle Cardinet, Unité de recherches Espèces Fruitières et Vigne (UREFV), Institut National de la Recherche Agronomique (INRA), Unité de recherche en génomique végétale (URGV), Institut National de la Recherche Agronomique (INRA)-Université d'Évry-Val-d'Essonne (UEVE)-Centre National de la Recherche Scientifique (CNRS), and Station de physiologie végétale
- Subjects
0106 biological sciences ,Chromosomes, Artificial, Bacterial ,Plant Science ,01 natural sciences ,lcsh:Botany ,Amplified Fragment Length Polymorphism Analysis ,Genetics ,0303 health sciences ,education.field_of_study ,Vegetal Biology ,qtl ,CARTOGRAPHIE GENETIQUE ,LOCUS D ,BIBLIOTHÈQUE BAC ,ISOLEMENT DE GÈNE ,adn ,Chromosome Mapping ,food and beverages ,acidité ,lcsh:QK1-989 ,Phenotype ,Prunus ,expression des gènes ,Genetic Markers ,DNA, Plant ,Quantitative Trait Loci ,Population ,marqueur génétique ,Locus (genetics) ,fruit charnu ,Quantitative trait locus ,Biology ,Genes, Plant ,qualité organoleptique ,03 medical and health sciences ,Gene mapping ,Genetic linkage ,Research article ,[SDV.BV]Life Sciences [q-bio]/Vegetal Biology ,education ,Gene ,Gene Library ,030304 developmental biology ,locus ,Genetic marker ,Fruit ,clonage ,Amplified fragment length polymorphism ,pêche ,remaniement chromosomique ,Biologie végétale ,010606 plant biology & botany - Abstract
BackgroundAcidity is an essential component of the organoleptic quality of fleshy fruits. However, in these fruits, the physiological and molecular mechanisms that control fruit acidity remain unclear. In peach theDlocus controls fruit acidity; low-acidity is determined by the dominant allele. Using a peach progeny of 208 F2trees, theDlocus was mapped to the proximal end of linkage group 5 and co-localized with major QTLs involved in the control of fruit pH, titratable acidity and organic acid concentration and small QTLs for sugar concentration. To investigate the molecular basis of fruit acidity in peach we initiated the map-based cloning of theDlocus.ResultsIn order to generate a high-resolution linkage map in the vicinity of theDlocus, 1,024 AFLP primer combinations were screened using DNA of bulked acid and low-acid segregants. We also screened a segregating population of 1,718 individuals for chromosomal recombination events linked to theDlocus and identified 308 individuals with recombination events close toD. Using these recombinant individuals we delimited theDlocus to a genetic interval of 0.4 cM. We also constructed a peach BAC library of 52,000 clones with a mean insert size of 90 kb. The screening of the BAC library with markers tightly linked toDlocus indicated that 1 cM corresponds to 250 kb at the vicinity of theDlocus.ConclusionIn the present work we presented the first high-resolution genetic map ofDlocus in peach. We also constructed a peach BAC library of approximately 15× genome equivalent. This fine genetic and physical characterization of theDlocus is the first step towards the isolation of the gene(s) underlying fruit acidity in peach.
- Published
- 2009