Auxin and LANCEOLATE affect leaf shape in tomato via different developmental processes

Hadas Ben-Gera, Naomi Ori

Research output: Contribution to journalArticlepeer-review

Abstract

Elaboration of complex leaves depends on the morphogenetic activity of a specific tissue at the leaf margin termed marginal blastozone. In tomato (Solanum lycopersicum), prolonged activity of the marginal blastozone leads to the development of compound leaves. The activity of the marginal blastozone is restricted by the TCP transcription factor LANCEOLATE (LA). Plants harboring the dominant LA mutant allele La-2 have simple leaves with a uniform blade. Conversely, leaves of pFIL >> miR319 are more compound than wild type and grow indeterminately in their margins due to leaf overexpression of miR319, a negative regulator of LA and additional miR319-sensitive (LA-like) genes. We have recently shown that the auxin-response sensor DR5::VENUS marks and precedes leaflet initiation events in the marginal blastozone. Mutations in ENTIRE (E), an auxin signal inhibitor from the Aux/IAA family, lead to the expansion of the DR5::VENUS signal to throughout the leaf-primordia margin, and to a simplified leaf phenotype. Here, we examined the interaction between auxin, E, and LA in tomato leaf development. In La-2 leaf primordia, the auxin signal is very weak and is diffused to throughout the leaf margin, suggesting that auxin acts within the developmental-context of marginal blastozone activity, which is controlled by LA. e La-2 double mutants showed an enhanced simplified leaf phenotype and e pFIL >> miR319 leaves initiated less leaflets than wild-type, but their margins showed continuous growth. These results suggest that E and auxin affect leaflet initiation within the context of the extended marginal blastozone activity, but their influence on the extent of indeterminate growth of the leaf is minor.

Original languageEnglish
Pages (from-to)1255-1257
Number of pages3
JournalPlant Signaling and Behavior
Volume7
Issue number10
DOIs
StatePublished - Oct 2012

Keywords

  • Auxin
  • CIN-TCP
  • Compound leaf
  • LANCEOLATE
  • Leaf development
  • SlIAA9/ENTIRE
  • Tomato

All Science Journal Classification (ASJC) codes

  • Plant Science

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