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Abdelsalam, N., Abdallah, A., Sultan, Z. (2018). DNA Fingerprinting of Two Oil Olive (Olea europaea L) Based on Different Molecular Markers. Journal of the Advances in Agricultural Researches, 23(2), 194-205.
Nader Ragab Abdelsalam; Ahmed Elsaid Abdallah; Zahraa Sultan. "DNA Fingerprinting of Two Oil Olive (Olea europaea L) Based on Different Molecular Markers". Journal of the Advances in Agricultural Researches, 23, 2, 2018, 194-205.
Abdelsalam, N., Abdallah, A., Sultan, Z. (2018). 'DNA Fingerprinting of Two Oil Olive (Olea europaea L) Based on Different Molecular Markers', Journal of the Advances in Agricultural Researches, 23(2), pp. 194-205.
Abdelsalam, N., Abdallah, A., Sultan, Z. DNA Fingerprinting of Two Oil Olive (Olea europaea L) Based on Different Molecular Markers. Journal of the Advances in Agricultural Researches, 2018; 23(2): 194-205.

DNA Fingerprinting of Two Oil Olive (Olea europaea L) Based on Different Molecular Markers

Article 1, Volume 23, Issue 2 - Serial Number 87, June 2018, Page 194-205  XML PDF (608.79 K)
Document Type: Research papers
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Authors
Nader Ragab Abdelsalam email orcid 1; Ahmed Elsaid Abdallah2; Zahraa Sultan2
1Agricultural Botany Department, Faculty of Agriculture (Saba Basha), Alexandria University, 21531 Alexandria, Egypt
2Department of Food Science, Faculty of Agriculture (Saba Basha), Alexandria University
Abstract
Olive (Olea europaea L.) is an economically significant fruit and oil crop in the Mediterranean region where it has been cultivated since ancient times. Two virgin olive oils were obtained from two olive cultivars i.e. “Wetagen” and “Chemlali” collecting from 15 different plants localized in Marsa Matroh and Siwa Oasis. DNA was extracted and three molecular techniques i.e. RAPD, SSR and AFLP were used to made DNA fingerprinting and calculate the genetic similarity between both oil cultivars. Data showed that, genetic similarity between the both oil cultivars was 0.13% based on the eight RAPD primers, 0.07% for AFLP primers and 0.03% for SSR markers. From these data we have been able to use these markers with oil to fingerprint and differentiate olive oils in markets. The differences found in the DNA patterns can be used as a characteristic fingerprint of each oil with the certainty that these amplifications are only obtained with olive DNA and not with DNA from any other contaminant origin.
Keywords
Olive oils; RAPD; SSR; AFLP; Fingerprint
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