Additional file 11 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 11: Table S2. Sequences of LaMYC4 and 22 MYCs from different plants

Additional file 14 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 14: Table S5. Predicted functions of the LaMYC4 with the function of their homologs verified in Arabidopsis by phylogenetic analysis

Additional file 15 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 15: Table S6. Primers used in this study

Additional file 3 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 3: Figure S3. Evolutionary tree analysis (circle tree) and subfamily classifications of bHLHs proteins in LaMYC4 and Arabidopsis thaliana. The evolutionary tree was constructed using the Neighbour-Joining method with 1000 bootstrap replication

Additional file 12 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 12: Table S3. Promoter sequence of LaMYC4 and Prediction element

Additional file 10 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 10: Table S1. Volatile compounds from control or treated with methyl jasmonate (MeJA) of lavender

Additional file 4 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 4: Figure S4. Contents of caryophyllene from the Arabidopsis plants. Wild type (WT), transformed by the empty vector pCAMBIA2300S (2300) and overexpressed LaMYC4 gene (35S::LaMYC4) plants (#2, #7). The products were identified by comparison with compounds in the library NIST14 and reference standards. Values shown are mean ± SD of three replicates. Standard errors are indicated as vertical lines on the top of each bar and bars annotated with different letters were significantly different according to Fisher’s LSD test (P < 0.05) after ANOVA

Additional file 2 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 2: Figure S2. Multiple alignment of nucleotide and amino acid. (a) nucleotide sequence. (b) amino acid sequence

Additional file 5 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 5: Figure S5. Contents of caryophyllene from the tobacco floral. Wild type (WT), transformed by the empty vector pCAMBIA2300S (2300) and overexpressed LaMYC4 gene (35S::LaMYC4) plants (#3, #5). The products were identified by comparison with compounds in the library NIST14 and reference standards. Values shown are mean ± SD of three replicates. Standard errors are indicated as vertical lines on the top of each bar and bars annotated with different letters were significantly different according to Fisher’s LSD test (P < 0.05) after ANOVA

Additional file 7 of The transcription factor LaMYC4 from lavender regulates volatile Terpenoid biosynthesis

Additional file 7: Figure S7. Phenotypic analysis of LaMYC4 transgenic tobacco. (a) Phenotypes of plant and flower in wild type (WT), transformed by the empty vector pCAMBIA2300S (2300) and LaMYC4 transgenic lines (#3, #5). (b) Results of plant height. (c) Total anthocyanin content in tobacco flower. (d, e, f) Surfaces cell of wild-type (WT), empty vector pCAMBIA2300 (2300) and overexpression of LaMYC4 transgenic plants on stem (35S::LaMYC4). (g) Results of surfaces cell length on stem. Values shown are mean ± SD of replicates. The plant height was twelve replicates, the total anthocyanin contents was three replicates and the cell length were one hundred replicates. Standard errors are indicated as vertical lines on the top of each bar and bars annotated with different letters were significantly different according to Fisher’s LSD test (P < 0.05) after ANOVA