| Abstract: | A reliable method has been previously developed to detect cytosine methylation at the 5′-CCGG-3′ sequence using isoschizomers (Msp I and Hpa II) and a modified amplified fragment length polymorphism (AFLP) technique. With this method, DNA methylation profiles were investigated in leaf tissues of apple (Malus × domestica cv. Gala) grown under two different growth conditions, field and tissue culture. A total of 1,622 AFLP bands were detected using 32 pairs of primers, and these banding patterns were assembled into three groups. Type I AFLP bands were present in both EcoR I/Hpa II and EcoR I/Msp I lanes. Type II bands were present in the EcoR I/Msp I lanes, but not in EcoR I/Hpa II lanes. Type III bands were present in EcoR I/Hpa II lanes, but not in the EcoR I/Msp I lanes. For leaf tissues of field- and in vitro-grown apples, the ratios of types I, II, and III to the total number of amplified fragments were 70 %, 24 %, and 6 %, and 71 %, 23 %, and 6 %, respectively. Although the ratios of the three types of banding patterns were similar in both leaf tissues, a few bands specific to either field-grown trees or in vitro-grown shoots were observed. This study provided evidence that changes in methylation occurred in apple leaf tissues subjected to tissue culture growth conditions. |
