One of the most important goals in genetic improvement of lemon in the Mediterranean area is certainly the obtainment of new genotypes tolerant or resistant to mal secco disease. Two lemon cybrids (one diploid and one autotetraploid) with an intermediate degree of resistance to mal secco disease, spontaneously obtained by symmetric protoplast fusion between Valencia orange and Femminello lemon, were used as mother plants in backcrosses with a diploid clone of Femminello Lemon Tolerant to the Mal Secco disease (LTMS) to improve tolerance and fruit quality. Since Femminello lemon normally reproduces apomictically by nucellar embryony, an embryo-rescue technique was applied 105 days after pollination to recover zygotic embryos. A total of 66 plantlets were regenerated as follows: 20 from the 4nX2n cross, and 46 from the 2nX2n cross. In order to distinguish zygotic embryos from nucellars, flow cytometry was applied on all the 66 plantlets; and a modified AFLP (Amplified Fragment-Length Polymorphism) technique and microsatellite analysis were carried out on a sample of 20 seedlings (6 triploids and 14 diploids). Here we report the usefulness and reliability of the tested techniques and discuss the results obtained. Flow cytometry (FCM) was useful only in inter-ploid crosses, identifying 6 triploids, 4 of which were also detected by SSR (Simple Sequence Repeat) analysis and only 2 by modified AFLP. Among the 14 tested diploids, 5 zygotic genotypes were identified by SSR and 4 by modified AFLP. In our hands, the SSR technique appeared to be more suitable than modified AFLP.
Flow Cytometry, SSR and modified AFLP markers for the identification of zygotic plantlets in backcrosses between ?Femminello? lemon cybrids (2n and 4n) and a diploid clone of ?Femminello? lemon (Citrus limon L. Burm. F.) tolerant to mal secco disease
Scarano MT;Tusa N;Abbate L;Ferrante S
2003
Abstract
One of the most important goals in genetic improvement of lemon in the Mediterranean area is certainly the obtainment of new genotypes tolerant or resistant to mal secco disease. Two lemon cybrids (one diploid and one autotetraploid) with an intermediate degree of resistance to mal secco disease, spontaneously obtained by symmetric protoplast fusion between Valencia orange and Femminello lemon, were used as mother plants in backcrosses with a diploid clone of Femminello Lemon Tolerant to the Mal Secco disease (LTMS) to improve tolerance and fruit quality. Since Femminello lemon normally reproduces apomictically by nucellar embryony, an embryo-rescue technique was applied 105 days after pollination to recover zygotic embryos. A total of 66 plantlets were regenerated as follows: 20 from the 4nX2n cross, and 46 from the 2nX2n cross. In order to distinguish zygotic embryos from nucellars, flow cytometry was applied on all the 66 plantlets; and a modified AFLP (Amplified Fragment-Length Polymorphism) technique and microsatellite analysis were carried out on a sample of 20 seedlings (6 triploids and 14 diploids). Here we report the usefulness and reliability of the tested techniques and discuss the results obtained. Flow cytometry (FCM) was useful only in inter-ploid crosses, identifying 6 triploids, 4 of which were also detected by SSR (Simple Sequence Repeat) analysis and only 2 by modified AFLP. Among the 14 tested diploids, 5 zygotic genotypes were identified by SSR and 4 by modified AFLP. In our hands, the SSR technique appeared to be more suitable than modified AFLP.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
