1. Integrated transcriptome sequencing and dynamic analysis reveal carbon source partitioning between terpenoid and oil accumulation in developing Lindera glauca fruits.
- Author
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Niu J, Chen Y, An J, Hou X, Cai J, Wang J, Zhang Z, and Lin S
- Subjects
- Biosynthetic Pathways genetics, Carbon metabolism, Flowers genetics, Flowers growth & development, Flowers metabolism, Fruit growth & development, Fruit metabolism, Gene Expression Profiling, Gene Expression Regulation, Developmental, Lindera growth & development, Lindera metabolism, Molecular Sequence Annotation, Sequence Analysis, DNA, Fruit genetics, Gene Expression Regulation, Plant, Genes, Plant, Lindera genetics, Plant Oils metabolism, Terpenes metabolism, Transcriptome
- Abstract
Lindera glauca fruits (LGF) with the abundance of terpenoid and oil has emerged as a novel specific material for industrial and medicinal application in China, but the complex regulatory mechanisms of carbon source partitioning into terpenoid biosynthetic pathway (TBP) and oil biosynthetic pathway (OBP) in developing LGF is still unknown. Here we perform the analysis of contents and compositions of terpenoid and oil from 7 stages of developing LGF to characterize a dramatic difference in temporal accumulative patterns. The resulting 3 crucial samples at 50, 125 and 150 days after flowering (DAF) were selected for comparative deep transcriptome analysis. By Illumina sequencing, the obtained approximately 81 million reads are assembled into 69,160 unigenes, among which 174, 71, 81 and 155 unigenes are implicated in glycolysis, pentose phosphate pathway (PPP), TBP and OBP, respectively. Integrated differential expression profiling and qRT-PCR, we specifically characterize the key enzymes and transcription factors (TFs) involved in regulating carbon allocation ratios for terpenoid or oil accumulation in developing LGF. These results contribute to our understanding of the regulatory mechanisms of carbon source partitioning between terpenoid and oil in developing LGF, and to the improvement of resource utilization and molecular breeding for L. glauca.
- Published
- 2015
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