Genetic variability among local apricots (Prunus armeniaca L.) from the Southeast of Spain

Martínez-Mora, Celia; Rodríguez, Jorge; Cenis, J. L.; Ruiz-Garcı́a, Leonor

doi:10.5424/sjar/2009074-1099

Cited by 12 publications

(6 citation statements)

References 29 publications

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“…The mean value of 4.27 alleles per locus obtained was higher than the 3.10 alleles per locus reported previously with 11 SSRs and 40 cultivars from different areas around the world [11] . It was similar to the 4.1 alleles per locus reported with 20 SSRs and 48 genotypes from diverse geographical areas [10] and the 4 alleles per locus obtained with 36 accessions from different areas of Murcia (Spain) [17] . However, it was lower than the value of 7.64 alleles per locus in 74 cultivars analyzed with 12 loci [12] , 12.3 alleles per locus in 44 cultivars [16] and 13.3 alleles per locus in 133 accessions [13] .…”

Section: Discussionsupporting

confidence: 87%

Molecular Characterization of Apricot Germplasm from an Old Stone Collection

2011

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Increasing germplasm erosion requires the recovery and conservation of traditional cultivars before they disappear. Here we present a particular case in Spain where a thorough prospection of local fruit tree species was performed in the 1950s with detailed data of the origin of each genotype but, unfortunately, the accessions are no longer conserved in ex situ germplasm collections. However, for most of those cultivars, an old stone collection is still preserved. In order to analyze the diversity present at the time when the prospection was made and to which extent variability has been eroded, we developed a protocol in apricot (Prunus armeniaca L.) to obtain DNA from maternal tissues of the stones of a sufficient quality to be amplified by PCR. The results obtained have been compared with the results from the profiles developed from apricot cultivars currently conserved in ex situ germplasm collections. The results highlight the fact that most of the old accessions are not conserved ex situ but provide a tool to prioritize the recovery of particular cultivars. The approach used in this work can also be applied to other plant species where seeds have been preserved.

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Section: Discussionsupporting

confidence: 87%

Molecular Characterization of Apricot Germplasm from an Old Stone Collection

2011

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“…Additionally, the diversity indexes were studied for each group of landraces, commercial cultivars and recent releases (Table 3). The mean number of alleles found in landraces (6.50) was higher than those obtained in previous reports for traditional cultivars in Spain (4.00 [23]; 4.27 [15]) or Iran (4.62 [47]; 3.01 [27]) resulting presumably from the larger and diverse number of accessions analyzed in this work. However, the number of alleles was lower than those obtained in reports that include wild apricots (23.00 [48]; 16.75 [20]), probably due to not having included cultivars from China, the center of origin [20], as reported by Bourguiba et al [3].…”

Section: Microsatellite Polymorphism and Genetic Diversitycontrasting

confidence: 83%

“…The mean observed heterozygosity was lower in the landraces (0.68) compared to the recent releases (0.77) and commercial cultivars (0.77) although without significant differences (p < 0.05). These values are higher than those in previous studies of diversity in apricot (0.51 [22]; 0.32 [51]; 0.52 [52]; 0.63 [19]; 0.58 [53]; 0.68 [23]; 0.65 [54]; 0.39 [15]; 0.52 [27]; 0.63 [55]; 0.36 [26]; 0.72 [20]; 0.65, 0.66 [21]). In the landraces, the expected heterozygosity ranged from 0.57 to 0.84, with a mean value of 0.73.…”

Section: Microsatellite Polymorphism and Genetic Diversitycontrasting

confidence: 70%

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Molecular Characterization of Genetic Diversity in Apricot Cultivars: Current Situation and Future Perspectives

et al. 2021

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In the recent years, an important renewal of apricot cultivars is taking place worldwide with the introduction of a large number of new releases, which are replacing traditional and local cultivars in many situations. To study the current genetic diversity, a group of 202 apricot accessions, including landraces and releases from breeding programs in several countries, has been characterized using 13 microsatellite markers. The diversity parameters showed higher diversity in modern releases than in landraces, but also suggested a loss of diversity associated with recent breeding. Two main clusters according to the pedigree origin of the accessions were clearly differentiated in the phylogenetic analysis based on Nei’s genetic distance. The first group comprised mostly European and North American traditional cultivars, and the second group included the majority of recent and commercial releases from breeding programs. Further population analyses showed the same clustering trend on the distribution of individuals and clusters, confirming the results obtained in the molecular phylogenetic analysis. These results provide a sight of the erosion and the decrease of the genetic diversity in the currently grown apricot and highlight the importance of preserve traditional cultivars and local germplasm to assure genetic resources for further breeding.

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“…In order to assess the genetic similarity of forty-three Indian apricot cultivars, Mir et al[24] studied the genetic variation of apricot cultivars in genetic banks in India using RAPD genetic indicators. Martínez-Mora et al[25] noted the use of genetic traits of several cultivars of apricots grown in Spain. Lisek et al[26] were able to use RAPD technology extensively among the sweet cherry cultivars in Poland, where it showed great effectiveness in distinguishing between cultivars[16] also demonstrated the efficiency of RAPD technology in showing obvious differences between cultivars of Prunus cerasia spread overland in Syria, and conducted PCR on DNA strands with eighteen random primers and demonstrated high efficiency in detecting genetic differences between the studied cultivars.…”

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confidence: 99%

Molecular characterization of some apricot Prunus armeniaca L. and plum Prunus domistica L. cultivars grown in northern Iraq using RAPD markers

Bashi

Al-Mathidy

2022

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The current research aimed to use the Random Amplification Polymorphic DNA (RAPD) markers based on the polymerase chain reaction (PCR) technique to find genetic variation between six cultivars of Prunus armeniaca L. and Prunus domistica L planted in North Iraq. DNA was extracted from young plant leaves, Thirteen primers were used in RAPD reactions, and samples were migrated using electrophoresis using an agarose gel. The results showed that the concentration of the extracted DNA ranged between (25.8 - 66.3) μg/ml, and the results showed a discrepancy in the number and molecular size of the DNA bands for each cultivar, as the total number of bands reached (1038), of which 882 were polymorphic, and 156 monomorphic bands.

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Genetic variability among local apricots (Prunus armeniaca L.) from the Southeast of Spain

Cited by 12 publications

References 29 publications

Molecular Characterization of Apricot Germplasm from an Old Stone Collection

Molecular Characterization of Apricot Germplasm from an Old Stone Collection

Molecular Characterization of Genetic Diversity in Apricot Cultivars: Current Situation and Future Perspectives

Molecular characterization of some apricot Prunus armeniaca L. and plum Prunus domistica L. cultivars grown in northern Iraq using RAPD markers

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