Dissecting promoter of InMYB1 gene showing petal-specific expression

We had previously reported that the InMYB1 promoter, the 1023 bp upstream region of InMYB1, works petalspecifically in various dicot plants by recognizing petal identity at a cellular level. To determine the petal-specific region in the InMYB1 promoter, Arabidopsis plants harboring InMYB1_1023b:: GUS (beta-glucuronidase), InMYB1_713b::GUS, InMYB1_506b::GUS, InMYB1_403b::GUS, InMYB1_332b::GUS, InMYB1_200b::GUS and InMYB1_140b:: GUS were produced and confirmed a shortest region, which has the petal-specific promoter activity by using histochemical GUS assay. Petal-specific GUS staining was not observed in the Arabidopsis plants transformed with InMYB1_200b:: GUS and InMYB1_140b:: GUS, but observed in transgenic Arabidopsis plants harboring from InMYB1_1023b:: GUS to InMYB1_332b:: GUS. cDNA sequence of InMYB1 shows that 120 bp upstream region of InMYB1 is 5' untranslated region, suggesting that the 332-121 bp upstream region of InMYB1 contains an important element for petal-specific gene expression. In the Arabidopsis harboring the InMYB1_332-121bx3_TATA_O::GUS, petal-specific GUS staining was observed and the staining was stronger than in the Arabidopsis harboring InMYB1_1023b::GUS. This result shows that the 332-121 bp region is enough and essential for the petal specificity and the InMYB1_332-121bx3_TATA_O could be used for the molecular breeding of floricultural crops.