Anthocyanins,ubiquitous in the Compositae family,are regulated by MYB(v-myb avian myeloblastosis viral oncogene homolog),playing an important role in anthocyanin synthesis.In this study,we analyzed the regulation path...Anthocyanins,ubiquitous in the Compositae family,are regulated by MYB(v-myb avian myeloblastosis viral oncogene homolog),playing an important role in anthocyanin synthesis.In this study,we analyzed the regulation pathway in which the MYB protein of subgroup 6 promotes dihydroflavonol reductase(DFR)expression in Compositae,and validated this law in Saussurea medusa through yeast one-hybrid experiments.Our results showed that MYB and DFR underwent purification selection,DFR promoter analysis revealed the presence of MYB binding site(GAGTTGAATGG)and bHLH binding site(CANNTG)at the sense strand of 84–116 nucleotide residues from the start codon.These two motifs were separated by 9–10 nucleotide residues,as existed in the DFR promoters of many Compositae plants.Furthermore,the yeast one-hybrid experiment demonstrated that SmMYB1 can activate the promoter of SmDFR.Our results provide a reference for further functional study of DFR in Compositae.展开更多
Tree peony cultivars with yellow flowers are rare and valuable,but the molecular mechanism of pigment accumulation is not clear.In this study,the petal transcriptome of three developmental stages were sequenced to det...Tree peony cultivars with yellow flowers are rare and valuable,but the molecular mechanism of pigment accumulation is not clear.In this study,the petal transcriptome of three developmental stages were sequenced to determine the differentially expressed genes(DEGs)regulating yellow flowers color.The results showed that 10,842 and 12,022 DEGs were screened in stage 1 vs.stage 2 and in stage 2 vs.stage 3,respectively.Through analysis of flavonoid structural genes(FSGs),we found that the transcription level of DFR was very low in the three developmental stages.In a small group of cultivars,the DFR transcription level of red flowers was 862 times higher than that of yellow flowers.These data suggested that the flavonoid pathway is interrupted in the later stage due to the low transcriptional level of DFR,which limits the biosynthesis of anthocyanins in yellow flowers.The transcription levels of F3’H and FLS were upregulated from stage 1 to stage 2,while those of CHI and FLS were downregulated from stage 2 to stage 3.In addition,67 MYBs and 44 bHLHs showed similar transcription profiles with different members of FSGs.The results deepen our understanding of the molecular mechanism of yellow pigment accumulation in tree peony.展开更多
基金This work was financially supported by the National Natural Science Foundation of China(31960222,31360095).
文摘Anthocyanins,ubiquitous in the Compositae family,are regulated by MYB(v-myb avian myeloblastosis viral oncogene homolog),playing an important role in anthocyanin synthesis.In this study,we analyzed the regulation pathway in which the MYB protein of subgroup 6 promotes dihydroflavonol reductase(DFR)expression in Compositae,and validated this law in Saussurea medusa through yeast one-hybrid experiments.Our results showed that MYB and DFR underwent purification selection,DFR promoter analysis revealed the presence of MYB binding site(GAGTTGAATGG)and bHLH binding site(CANNTG)at the sense strand of 84–116 nucleotide residues from the start codon.These two motifs were separated by 9–10 nucleotide residues,as existed in the DFR promoters of many Compositae plants.Furthermore,the yeast one-hybrid experiment demonstrated that SmMYB1 can activate the promoter of SmDFR.Our results provide a reference for further functional study of DFR in Compositae.
基金funded by Henan Province Science and Technology Breakthrough Project(212102110015)and the Key Scientific Research Projects of Colleges and Universities in Henan Province(21A180018).
文摘Tree peony cultivars with yellow flowers are rare and valuable,but the molecular mechanism of pigment accumulation is not clear.In this study,the petal transcriptome of three developmental stages were sequenced to determine the differentially expressed genes(DEGs)regulating yellow flowers color.The results showed that 10,842 and 12,022 DEGs were screened in stage 1 vs.stage 2 and in stage 2 vs.stage 3,respectively.Through analysis of flavonoid structural genes(FSGs),we found that the transcription level of DFR was very low in the three developmental stages.In a small group of cultivars,the DFR transcription level of red flowers was 862 times higher than that of yellow flowers.These data suggested that the flavonoid pathway is interrupted in the later stage due to the low transcriptional level of DFR,which limits the biosynthesis of anthocyanins in yellow flowers.The transcription levels of F3’H and FLS were upregulated from stage 1 to stage 2,while those of CHI and FLS were downregulated from stage 2 to stage 3.In addition,67 MYBs and 44 bHLHs showed similar transcription profiles with different members of FSGs.The results deepen our understanding of the molecular mechanism of yellow pigment accumulation in tree peony.