Abstract

Aims: Sweet potato (Ipomoea batatas) cv. “Miyazakibeni” was used as material for shoot apex culture, reverse transcription-polymerase chain reaction (RT-PCR) and clonal propagation to establish an efficient and practical virus-free seedling supply system in production of vegetatively reproductive plants. Study Design: At first, efficient plant regeneration was achieved from shoot apex culture of sweet potato. Secondly, RT-PCR method was used to detect the sweet potato feathery Original Research Article British Biotechnology Journal, 4(1): 51-63, 2014 52 mottle virus (SPFMV) viral infection of tuber surface of edible sweet potato using the RNAs from the plants obtained from shoot apex culture. Finally, the virus-free plants verified by RT-PCR were propagated clonally by culture of suckers cut from stems of the virus-free plants. Place and Duration of Study: Faculty of Environmental and Horticultural Science, Minami Kyushu University, between June 2008 and December 2012. Methodology: The best efficiency for material sterilization was tested using different concentrations (0.1% 1.5%) of sodium hypochlorite solution (SHS) and the treated times (5 min – 20 min). Theshoot apexes less than 0.3mm in size were cultured on Komamine and Nomura (1998) (KN) medium and Murashige and Skoog (1962) (MS) medium. The regenerated plants were used for RNA extraction and then, used for RT-PCR for detection of SPFMV. Based on the result of RT-PCR, the suckers cut from stems of virus-free plants were cultured and propagated clonally and routinely within a short period. Results: The combination of 0.3% of SHS and 10 and/or 20 min gave the best result (100%) of surviving rate for material sterilization. The culture of shoot apexes less than 0.3 mm in size gave plant regenerating rates of 82% and 65% on KN and MS medium, respectively. The results of RT-PCR of RNAs from plants obtained from shoot apex culture and plants of SPFMV infection showed that SPFMV virus was clearly removed by shoot apex culture conducted in this study. For clonal propagation, 80-100% of suckers cut from the stems of the virus-free plants detected grew into complete plants after 6 weeks of culture, indicating that the virus-free plants could be routinely propagated 5 times in number each time and repeatable by the short circle. The sweet potato produced in field showed no symptom called as russet crack-like symptom (RC-LS) even after cultivation two seasons. Conclusion: Overall, an efficient and practical virus-free seedling supply system was established in sweet potato by the three steps of 1) virus-free plant regeneration from shoot apex culture, 2) quick detection of SPFMV using RNA of the regenerated plants by RT-PCR, and 3) the verified virus-free plants were propagated clonally and routinely within a short period using culture of suckers cut from the stems of virus-free plants.

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