A small insert genomic library of Olea europaea L., highly enriched in (GA/CT) n repeats, was obtained using the procedure of Kandpal et al. (1994). The sequencing of 103 clones randomly extracted from this library allowed the identification of 56 unique genomic inserts containing simple sequence repeat regions made by at least three single repeats. A sample of 20 primer pairs out of the 42 available were tested for functionality using the six olive varieties whose DNA served for library construction. All primer pairs succeeded in amplifying at least one product from the six DNA samples, and ten pairs detecting more than one allele were used for the genetic characterisation of a panel of 20 olive accessions belonging to 16 distinct varieties. A total of 57 alleles were detected among the 20 genotypes at the ten polymorphic SSR loci. The remaining primer pair allowed the amplification of a single SSR allele for all accessions plus a longer fragment for some genotypes. Considering the simple sequence repeat polymorphism, 5.7 alleles were scored on average for each of the ten SSR loci. A genetic dissimilarity matrix, based on the proportion of shared alleles among all the pair-wise combinations of genotypes, was constructed and used to disentangle the genetic relationships among varieties by means of the UPGMA clustering algorithm. Graphical representation of the results showed the presence of two distinct clusters of varieties. The first cluster grouped the varieties cultivated on the Ionian Sea coasts. The second cluster showed two subdivisions: the first sub-cluster agglomerated the varieties from some inland areas of Calabria; the second grouped the remaining varieties from Basilicata and Apulia cultivated in nearby areas. Results of cluster analysis showed a significant relationship between the multilocus genetic similarities and the geographic origin of the cultivars.
High-field (600 MHz) nuclear magnetic resonance (NMR) spectroscopy was applied to the direct analysis of virgin olive oil. Minor components were studied to assess oil quality and genuineness. Unsaturated and saturated aldehyde resonances, as well as those related to other volatile compounds, were identified in the low-field region of the spectrum by two-dimensional techniques. Unsaturated aldehydes can be related to the sensory quality of oils. Other unidentified peaks are due to volatile components, because they disappear after nitrogen fluxing. The statistical analysis performed on the intensity of these peaks in several oil samples, obtained from different olive varieties, allows clustering and identification of oils arising from the same olive variety. Diacylglycerols, linolenic acid, other volatile components, water, acetic acid, phenols, and sterols can be detected simultaneously, suggesting a useful application of high-field NMR in the authentication and quality assessment of virgin olive oil.
Enzymatic extracts from olive pulp (Olea europea L.) were used to characterize lipoxygenase (LOX) activity in order to determine its role in the biogenesis of the volatile compounds that influence the aroma of extra virgin olive oil. The LOX activity was tested spectrophotometrically at an optimal pH of 6.0 in three olive cultivars, Ascolana Tenera, Kalamata, and FS17. The trend of the LOX activity was determined as a function of pH and temperature; the kinetic constants of the enzyme were also determined. The highest LOX activity was observed in the FS17 fruit, which had the highest concentrations of C(5) and C(6) compounds (aldehydes, alcohols, and ketones), followed by Kalamata and Ascolana T., respectively. Given the direct relationship between enzymatic activity and the quantity of aromas measured in the fruit, it is hypothesized that olive LOX is involved in the formation of C(5) and C(6) volatile compounds. To study the mechanism of the movement of the aromas from the fruit to the oil, which was obtained by simple mechanical extraction, the headspace of the oil for each cultivar was analyzed as well as the aromatic composition in order to compare it with the aromas of the fruit.
BACKGROUND: Thirty-eight accessions of olive (Olea europaea L.) originating from Córdoba province (Argentina) and preliminarily identified as belonging to the Arbequina variety were genotyped using AFLP (amplified fragment length polymorphism) DNA markers. Also, the oil chemical composition was studied during three consecutive crop years. The objectives of the work were (a) to investigate genetic intra-cultivar diversity and (b) to evaluate the oil chemical composition and compare it with that of Arbequina oil produced in Spain.
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