eLife (Oct 2018)

The decoration of specialized metabolites influences stylar development

  • Jiancai Li,
  • Meredith C Schuman,
  • Rayko Halitschke,
  • Xiang Li,
  • Han Guo,
  • Veit Grabe,
  • Austin Hammer,
  • Ian T Baldwin

DOI
https://doi.org/10.7554/eLife.38611
Journal volume & issue
Vol. 7

Abstract

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Plants produce many different specialized (secondary) metabolites that function in solving ecological challenges; few are known to function in growth or other primary processes. 17-Hydroxygeranylinalool diterpene glycosides (DTGs) are abundant herbivory-induced, structurally diverse and commonly malonylated defense metabolites in Nicotiana attenuata plants. By identifying and silencing a malonyltransferase, NaMaT1, involved in DTG malonylation, we found that DTG malonylation percentages are normally remarkably uniform, but when disrupted, result in DTG-dependent reduced floral style lengths, which in turn result from reduced stylar cell sizes, IAA contents, and YUC activity; phenotypes that could be restored by IAA supplementation or by silencing the DTG pathway. Moreover, the Nicotiana genus-specific JA-deficient short-style phenotype also results from alterations in DTG malonylation patterns. Decorations of plant specialized metabolites can be tuned to remarkably uniform levels, and this regulation plays a central but poorly understood role in controlling the development of specific plant parts, such as floral styles.

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