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Transcriptome and functional analysis reveals hybrid vigor for oil biosynthesis in oil palm.

Jingjing JinYanwei SunJing QuRahmad SyahChin-Huat LimYuzer AlfikoNur Estya Bte RahmanAntonius SuwantoGenhua YueLimsoon WongNam-Hai ChuaJian Ye
Published in: Scientific reports (2017)
Oil palm is the most productive oil crop in the world and composes 36% of the world production. However, the molecular mechanisms of hybrids vigor (or heterosis) between Dura, Pisifera and their hybrid progeny Tenera has not yet been well understood. Here we compared the temporal and spatial compositions of lipids and transcriptomes for two oil yielding organs mesocarp and endosperm from Dura, Pisifera and Tenera. Multiple lipid biosynthesis pathways are highly enriched in all non-additive expression pattern in endosperm, while cytokinine biosynthesis and cell cycle pathways are highly enriched both in endosperm and mesocarp. Compared with parental palms, the high oil content in Tenera was associated with much higher transcript levels of EgWRI1, homolog of Arabidopsis thaliana WRINKLED1. Among 338 identified genes in lipid synthesis, 207 (61%) has been identified to contain the WRI1 specific binding AW motif. We further functionally identified EgWRI1-1, one of three EgWRI1 orthologs, by genetic complementation of the Arabidopsis wri1 mutant. Ectopic expression of EgWRI1-1 in plant produced dramatically increased seed mass and oil content, with oil profile changed. Our findings provide an explanation for EgWRI1 as an important gene contributing hybrid vigor in lipid biosynthesis in oil palm.
Keyphrases
  • fatty acid
  • cell cycle
  • genome wide
  • cell wall
  • gene expression
  • cell proliferation
  • dna methylation
  • climate change
  • dna binding