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Randomly Amplified Polymorphic DNA- (RAPD-) based Genetic Linkage Map of Blueberry Derived from an Interspecific Cross between Diploid Vaccinium darrowi and Tetraploid V. corymbosum
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1997
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Plant GeneticsGeneticsLinkage AnalysisUnique MarkersGenomicsUs 75Tetraploid Blueberry PopulationPlant GenomicsPhylogenetic AnalysisGenetic DiversityMolecular EcologyBlueberry DerivedQuantitative GeneticsAmplified Polymorphic Dna-Molecular BreedingGenetic VariationPopulation GeneticsPlant BreedingBiologyLinkage DisequilibriumGenetic Linkage MapNatural SciencesEvolutionary BiologyMedicine
A tetraploid blueberry population resulting from a cross of US 75 {a tetraploid hybrid of Fla 4B [a selection of Vaccinium darrowi Camp (2n = 2x = 24) × `Bluecrop' [( V. corymbosum L. (2n = 4x = 48)]} × `Bluetta' (4x) was used to generate a genetic linkage map of US 75 by randomly amplified polymorphic DNA (RAPD) analysis. One hundred and forty markers unique for Fla 4B that segregated 1:1 in the population were mapped into 29 linkage groups that cover a total genetic distance of 1288.2 cM, with a range of 1.6 to 33.9 cM between adjacent markers. The map is essentially of V. darrowi because US 75 was produced via a 2n gamete from Fla 4B and only unique markers for Fla 4B were used. Therefore, all the chromosomes of V. darrowi could be represented in the map.