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[Objective] The aim of the study is to clone the 5’ flanking region of Sporamin A gene from sweet potato. [Method] The sweet potato “Xushu 18” was used to amplify the 5’ flanking region of Sporamin A gene using specifically designed primers and then target fragment was analyzed by PLACE and PlantCare online. [Result] Besides the conserved elements including TATA-box and CAAT-box,the cis-acting elements including sucrose responsive element CMSRE1,SP8 acting site and some other regulatory sequence such as MYB binding site were also found in Spo A promoter sequence. The results suggest that the promoter has sucrose responsive function.[Conclusion] The study provided reference to reveal the regulation law of Spo A,and to develop high-level expression vectors promoted by Spo A promoter.
[Objective] The aim of the study is to clone the 5 ’flanking region of Sporamin A gene from sweet potato. [Method] The sweet potato “Xushu 18” was used to amplify the 5’ flanking region of Sporamin A gene using specifically designed primers and then target fragment was analyzed by PLACE and PlantCare online. [Result] Besides the conserved elements including TATA-box and CAAT-box, the cis-acting elements including sucrose responsive element CMSRE1, SP8 acting site and some other regulatory sequence such as as MYB binding site was also found in Spo A promoter sequence. The results suggest that the promoter has sucrose responsive function. [Conclusion] The study provided reference to reveal the regulation law of Spo A, and to develop high-level expression vectors. by Spo A promoter.