Abstract
Previous studies have clearly demonstrated that the putative phytohormone melatonin functions directly in many aspects of plant growth and development. In Arabidopsis (Arabidopsis thaliana), the role of melatonin in seed oil and anthocyanin accumulation, and corresponding underlying mechanisms, remain unclear. Here, we found that serotonin N-acetyltransferase1 (SNAT1) and caffeic acid O-methyltransferase (COMT) genes were ubiquitously and highly expressed and essential for melatonin biosynthesis in Arabidopsis developing seeds. We demonstrated that blocking endogenous melatonin biosynthesis by knocking out SNAT1 and/or COMT significantly increased oil and anthocyanin content of mature seeds. In contrast, enhancement of melatonin signaling by exogenous application of melatonin led to a significant decrease in levels of seed oil and anthocyanins. Further gene expression analysis through RNA sequencing and reverse-transcription quantitative PCR demonstrated that the expression of a series of important genes involved in fatty acid and anthocyanin accumulation was significantly altered in snat1-1 comt-1 developing seeds during seed maturation. We also discovered that SNAT1 and COMT significantly regulated the accumulation of both mucilage and proanthocyanidins in mature seeds. These results not only help us understand the function of melatonin and provide valuable insights into the complicated regulatory network controlling oil and anthocyanin accumulation in seeds, but also divulge promising gene targets for improvement of both oil and flavonoids in seeds of oil-producing crops and plants.
Highlights
Arabidopsis thaliana is a popular model system for the study of primary and secondary metabolites, including oil and anthocyanins, in seeds of angiosperms
We investigated the subcellular localization of serotonin N-acetyltransferase1 (SNAT1) and caffeic acid O-methyltransferase (COMT) in Nicotiana benthamiana leaves using the GFP fusion constructs, 35S:SNAT1-GFP and 35S:COMT-GFP
It is worthy to note that levels of both total and solvent-soluble PAs in the comt seeds were higher than those of snat1-1 seeds, and comparable with snat1-1 comt-1 seeds (Figure 8). These results suggested that SNAT1 and COMT act in a non-additive manner, and COMT exhibits a greater role than SNAT1 in inhibiting the deposition of PAs in the A. thaliana seed coat. 405
Summary
Arabidopsis thaliana is a popular model system for the study of primary and secondary metabolites, including oil and anthocyanins, in seeds of angiosperms. Investigating the roles of essential factors in the accumulation of seed oil and anthocyanins in A. thaliana would provide useful information and potential targets for breeders to elevate the contents of these metabolites in many crops, which is of great economic and social significance. Melatonin (N-acetyl-5-methoxytryptamine), a highly conserved bioactive molecule, is ubiquitously present in all plant species (Tan et al, 2012; Tan et al, 2013). It is produced from serotonin through two consecutive enzymatic steps. We demonstrated that melatonin functions as a negative regulatory signal for seed oil and anthocyanin accumulation during the maturation of A. thaliana seeds
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