Login / Signup

The auxin-responsive transcription factor SlDOF9 regulates inflorescence and flower development in tomato.

Guojian HuKeke WangBaowen HuangIsabelle MilaPierre FrasseElie MazaAnis DjariMichel HernouldMohammed ZouineZhengguo LiMondher Bouzayen
Published in: Nature plants (2022)
Understanding the mechanisms underlying differentiation of inflorescence and flower meristems is essential towards enlarging our knowledge of reproductive organ formation and to open new prospects for improving yield traits. Here, we show that SlDOF9 is a new modulator of floral differentiation in tomato. CRISPR/Cas9 knockout strategy uncovered the role of SlDOF9 in controlling inflorescence meristem and floral meristem differentiation via the regulation of cell division genes and inflorescence architecture regulator LIN. Tomato dof9-KO lines have more flowers in both determinate and indeterminate cultivars and produce more fruit upon vibration-assisted fertilization. SlDOF9 regulates inflorescence development through an auxin-dependent ARF5-DOF9 module that seems to operate, at least in part, differently in Arabidopsis and tomato. Our findings add a new actor to the complex mechanisms underlying reproductive organ differentiation in flowering plants and provide leads towards addressing the diversity of factors controlling the transition to reproductive organs.
Keyphrases
  • transcription factor
  • crispr cas
  • healthcare
  • genome editing
  • genome wide
  • single cell
  • gene expression
  • cell therapy
  • dna binding
  • drug delivery
  • mesenchymal stem cells