Targeted mapping and linkage analysis of morphological isozyme, and RAPD markers in peach
Nine different F2 families of peach (Prunus persica (L.) Batsch) were analyzed for linkage relationships between 14 morphological and two isozyme loci. Linkage was detected between weeping (We) and white flower (W), 33 cM; double flower (Dl) and pillar (Br), 1O cM; and flesh color (Y) and malate deh...
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| Published in | Theoretical and applied genetics Vol. 87; no. 7; p. 805 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Germany
01.02.1994
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| Abstract | Nine different F2 families of peach (Prunus persica (L.) Batsch) were analyzed for linkage relationships between 14 morphological and two isozyme loci. Linkage was detected between weeping (We) and white flower (W), 33 cM; double flower (Dl) and pillar (Br), 1O cM; and flesh color (Y) and malate dehydrogenase (Mdhl), 26 cM. A leaf variant phenotypically distinct from the previously reported wavy-leaf (Wa) mutant in peach was found in progeny of 'Davie 2'. The new willow-leaf character (designated Wa2) was closely linked (0.4 cM) to a new dwarf phenotype (designated Dw3). Two families derived from the pollen-fertile cultivar 'White Glory' segregated for pollen sterility, but segregation did not follow a 3:1 ratio. Evidence is presented suggesting that 'White Glory' possesses a pollen-sterility gene (designated Ps2) that is non-allelic to the previously reported pollen-sterility gene (Ps) in peach. Ps2 was linked to both weeping (We-Ps2, 15.5 cM) and white flower (Ps2-W, 25.3 cM). A genomic map of peach containing 83 RAPD, one isozyme, and four morphological markers was generated using an F2 family obtained by selfing an NC174RL x 'Pillar' F1. A total of 83 RAPD markers were assigned to 15 linkage groups. Various RAPD markers were linked to morphological traits. Bulked segregant analysis was used to identify RAPD markers flanking the red-leaf (Gr) and Mdh1 loci in the NC174RL x 'Pillar' and 'Marsun' x 'White Glory' F2 families, respectively. Three markers flanking Mdh1 and ten markers flanking Gr were identified. The combination of RAPD markers and bulked segregant analysis provides an efficient method of identifying markers flanking traits of interest. Markers linked to traits that can only be scored late in development are potentially useful for marker-aided selection in trees. |
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| AbstractList | Nine different F2 families of peach (Prunus persica (L.) Batsch) were analyzed for linkage relationships between 14 morphological and two isozyme loci. Linkage was detected between weeping (We) and white flower (W), 33 cM; double flower (Dl) and pillar (Br), 1O cM; and flesh color (Y) and malate dehydrogenase (Mdhl), 26 cM. A leaf variant phenotypically distinct from the previously reported wavy-leaf (Wa) mutant in peach was found in progeny of 'Davie 2'. The new willow-leaf character (designated Wa2) was closely linked (0.4 cM) to a new dwarf phenotype (designated Dw3). Two families derived from the pollen-fertile cultivar 'White Glory' segregated for pollen sterility, but segregation did not follow a 3:1 ratio. Evidence is presented suggesting that 'White Glory' possesses a pollen-sterility gene (designated Ps2) that is non-allelic to the previously reported pollen-sterility gene (Ps) in peach. Ps2 was linked to both weeping (We-Ps2, 15.5 cM) and white flower (Ps2-W, 25.3 cM). A genomic map of peach containing 83 RAPD, one isozyme, and four morphological markers was generated using an F2 family obtained by selfing an NC174RL x 'Pillar' F1. A total of 83 RAPD markers were assigned to 15 linkage groups. Various RAPD markers were linked to morphological traits. Bulked segregant analysis was used to identify RAPD markers flanking the red-leaf (Gr) and Mdh1 loci in the NC174RL x 'Pillar' and 'Marsun' x 'White Glory' F2 families, respectively. Three markers flanking Mdh1 and ten markers flanking Gr were identified. The combination of RAPD markers and bulked segregant analysis provides an efficient method of identifying markers flanking traits of interest. Markers linked to traits that can only be scored late in development are potentially useful for marker-aided selection in trees. Nine different F2 families of peach [Prunus persica (L.) Batsch] were analyzed for linkage relationships between 14 morphological and two isozyme loci. Linkage was detected between weeping (We) and white flower (W), 33 cM; double flower (Dl) and pillar (Br), 10 cM; and flesh color (Y) and malate dehydrogenase (Mdh1), 26 cM. A leaf variant phenotypically distinct from the previously reported wavy-leaf (Wa) mutant in peach was found in progeny of 'Davie II'. The new willow-leaf character (designated Wa2) was closely linked (0.4 cM) to a new dwarf phenotype (designated Dw3). Two families derived from the pollen-fertile cultivar 'White Glory' segregated for pollen sterility, but segregation did not follow a 3∶1 ratio. Evidence is presented suggesting that 'White Glory' possesses a pollen-sterility gene (designated Ps2) that is non-allelic to the previously reported pollen-sterility gene (Ps) in peach. Ps2 was linked to both weeping (We-Ps2, 15.5 cM) and white flower (Ps2-W, 25.3 cM). A genomic map of peach containing 83 RAPD, one isozyme, and four morphological markers was generated using an F2 family obtained by selfing an NC174RL x 'Pillar' F1. A total of 83 RAPD markers were assigned to 15 linkage groups. Various RAPD markers were linked to morphological traits. Bulked segregant analysis was used to identify RAPD markers flanking the red-leaf (Gr) and Mdh1 loci in the NC174RL x 'Pillar' and 'Marsun' x 'White Glory' F2 families, respectively. Three markers flanking Mdh1 and ten markers flanking Gr were identified. The combination of RAPD markers and bulked segregant analysis provides an efficient method of identifying markers flanking traits of interest. Markers linked to traits that can only be scored late in development are potentially useful for marker-aided selection in trees. Alternatives for obtaining additional map order information for repulsion-phase markers in large F2 populations are proposed. |
| Author | Sederoff, R.R Chaparro, J.X. (North Carolina State Univ., Raleigh (USA). Dept. of Horticultural Science) Werner, D.J O'Malley, D |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24190466$$D View this record in MEDLINE/PubMed |
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| References | 1979162 - Nucleic Acids Res. 1990 Nov 25;18(22):6531-5 1360933 - Genetics. 1992 Dec;132(4):1119-30 2317373 - Biotechniques. 1990 Feb;8(2):176 1974227 - Genetics. 1990 Jul;125(3):645-54 24202256 - Theor Appl Genet. 1991 Nov;83(1):49-57 1685721 - Genome. 1991 Dec;34(6):1021-7 3692487 - Genomics. 1987 Oct;1(2):174-81 1684420 - Nucleic Acids Res. 1991 Dec 11;19(23):6553-8 1682921 - Proc Natl Acad Sci U S A. 1991 Nov 1;88(21):9828-32 |
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| Snippet | Nine different F2 families of peach (Prunus persica (L.) Batsch) were analyzed for linkage relationships between 14 morphological and two isozyme loci. Linkage... Nine different F2 families of peach [Prunus persica (L.) Batsch] were analyzed for linkage relationships between 14 morphological and two isozyme loci. Linkage... |
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| SubjectTerms | ADN Bulked segregant analysis CARTE GENETIQUE ENZIMA DE RESTRICCION ENZYME DE RESTRICTION GENE GENES Genomic mapping ISOENZIMAS ISOENZYME MAPAS GENETICOS MARCADORES GENETICOS MARQUEUR GENETIQUE Peach POLIMORFISMO GENETICO POLYMORPHISME GENETIQUE PRUNUS PERSICA RAPD SECUENCIA NUCLEICA SEQUENCE NUCLEIQUE |
| Title | Targeted mapping and linkage analysis of morphological isozyme, and RAPD markers in peach |
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