Metabolite Profiling and Transcriptome
Analyses Provide Insights into the Flavonoid Biosynthesis in the Developing
Seed of Tartary Buckwheat (Fagopyrum tataricum)
posted on 2019-09-26, 14:07authored byHongyou Li, Qiuyu Lv, Chao Ma, Jingtao Qu, Fang Cai, Jiao Deng, Juan Huang, Pan Ran, Taoxiong Shi, Qingfu Chen
Tartary buckwheat (Fagopyrum
tataricum) seeds are rich in flavonoids. However,
the detailed flavonoid compositions and the molecular basis of flavonoid
biosynthesis in tartary buckwheat seeds remain largely unclear. Here,
we performed a combined metabolite profiling and transcriptome analysis
to identify flavonoid compositions and characterize genes involved
in flavonoid biosynthesis in the developing tartary buckwheat seeds.
In total, 234 flavonoids, including 10 isoflavones, were identified.
Of these, 80 flavonoids were significantly differential accumulation
during seed development. Transcriptome analysis indicated that most
structural genes and some potential regulatory genes of flavonoid
biosynthesis were significantly differentially expressed in the course
of seed development. Correlation analysis between transcriptome and
metabolite profiling shown that the expression patterns of some differentially
expressed structural genes and regulatory genes were more consistent
with the changes in flavonoids profiles during seed development and
promoted one SG7 subgroup R2R3-MYB transcription factors (FtPinG0009153900.01) was identified as the key regulatory
gene of flavonoid biosynthesis. These findings provide valuable information
for understanding the mechanism of flavonoid biosynthesis in tartary
buckwheat seeds and the further development of tartary buckwheat health
products.