A collection of 1005 grapevine accessions was genotyped at 34 microsatellite loci (SSR) with the aim of analysing genetic diversity and exploring parentages. The comparison of molecular profiles revealed 200 groups of synonymy. The removal of perfect synonyms reduced the database to 745 unique genotypes, on which population genetic parameters were calculated. The analysis of kinship uncovered 74 complete pedigrees, with both parents identified. Many of these parentages were not previously known and are of considerable historical interest, e.g. Chenin blanc (Sauvignon × Traminer rot), Covè (Harslevelu selfed), Incrocio Manzoni 2-14 and 2-15 (Cabernet franc × Prosecco), Lagrein (Schiava gentile × Teroldego), Malvasia nera of Bolzano (Perera × Schiava gentile), Manzoni moscato (Raboso veronese × Moscato d'Amburgo), Moscato violetto (Moscato bianco × Duraguzza), Muscat of Alexandria (Muscat blanc à petit grain × Axina de tres bias) and others. Statistical robustness of unexpected pedigrees was reinforced with the analysis of an additional 7-30 SSRs. Grouping the accessions by profile resulted in a weak correlation with their geographical origin and/or current area of cultivation, revealing a large admixture of local varieties with those most widely cultivated, as a result of ancient commerce and population flow. The SSRs with tri- to penta-nucleotide repeats adopted for the present study showed a great capacity for discriminating amongst accessions, with probabilities of identity by chance as low as 1.45 × 10(-27) and 9.35 × 10(-12) for unrelated and full sib individuals, respectively. A database of allele frequencies and SSR profiles of 32 reference cultivars are provided.
This study uses PCR-derived marker systems to investigate the extent and distribution of genetic variability of 53 Garnacha accessions coming from Italy, France and
Clonal selection is the most worldwide spreading method to improve the performance of wine grapevine (Vitis vinifera) cultivars. In the special case of autochthonous varieties with only local interest, such as Manto Negro, Callet and Moll in Majorca (Spain), good knowledge of their genotypic resources is helpful to assess the development of viticultural and enological potentialities. In this study, 94 vines (including Manto Negro, Callet, Moll and wrongly identified samples) were analysed by means of genetic markers. Several varietal identification mistakes related to the clonal selection in Majorca were detected by the amplification of 33 simple sequence repeats (SSRs) or microsatellite loci, mainly because of the close genetic relationships between Manto Negro, Callet, Moll and other varieties. A very low degree of intravarietal genetic diversity, possibly related to high incidence of virus infections, was shown in all three varieties. However, analysis by amplified fragment length polymorphism (AFLP), selective amplification of microsatellite loci (SAMPL) and microsatellite-amplified fragment length polymorphism (M-AFLP) was suitable for clone genetic discrimination. More than 900 scorable bands were obtained by nine primer combinations. The most efficient system to detect intravarietal genetic differences was M-AFLP, which generated the highest number of polymorphic bands. The use of these markers allowed clustering vines in homogeneous groups, providing essential information about sanitation strategies in order to obtain certified propagation material.
The DNA molecular analyses together with ampelography, ampelometry, and biochemistry are essential for grapevine identification and investigation of genetic differences among the Vitis vinifera L. cultivars and clones. Ten Malvasia cultivars (i.e., Istrian Malvasia; M. delle Lipari; M. bianca di Candia; M. di Candia Aromatica; M. del Lazio; M. bianca lunga, also known as Malvasia del Chianti; M. nera di Brindisi/Lecce; M. di Casorzo; M. di Schierano, and M. nera di Bolzano) were analyzed using molecular approaches to study the genetic inter-varietal variability. Thirty Istrian Malvasia genotypes (i.e., 8 Italian clones, such as ISV 1, ISV F6, VCR 4, VCR 113, VCR 114, VCR 115, ERSA 120, ERSA 121, and 22 autochthonous grapevine accessions grown in Istrian Peninsula, Croatia) were investigated to evaluate the morphological and genetic intra-varietal variability. DNA analysis allowed discrimination of all Malvasia genotypes at molecular level using AFLP, SAMPL, and M-AFLP markers. Italian clones and autochthonous Croatian accessions of Istrian Malvasia were grouped according to their different geographic origins. These results showed the great genetic variability of Malvasia genotypes suggesting the need for the preservation of autochthonous grapevine biotypes found on different areas to approve the correct choice and selection of the grape multiplication materials.
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