Biomolecules (Jul 2023)

Sunflower Hybrids and Inbred Lines Adopt Different Physiological Strategies and Proteome Responses to Cope with Water Deficit

  • Harold Duruflé,
  • Thierry Balliau,
  • Nicolas Blanchet,
  • Adeline Chaubet,
  • Alexandra Duhnen,
  • Nicolas Pouilly,
  • Mélisande Blein-Nicolas,
  • Brigitte Mangin,
  • Pierre Maury,
  • Nicolas Bernard Langlade,
  • Michel Zivy

DOI
https://doi.org/10.3390/biom13071110
Journal volume & issue
Vol. 13, no. 7
p. 1110

Abstract

Read online

Sunflower is a hybrid crop that is considered moderately drought-tolerant and adapted to new cropping systems required for the agro-ecological transition. Here, we studied the impact of hybridity status (hybrids vs. inbred lines) on the responses to drought at the molecular and eco-physiological level exploiting publicly available datasets. Eco-physiological traits and leaf proteomes were measured in eight inbred lines and their sixteen hybrids grown in the high-throughput phenotyping platform Phenotoul-Heliaphen. Hybrids and parental lines showed different growth strategies: hybrids grew faster in the absence of water constraint and arrested their growth more abruptly than inbred lines when subjected to water deficit. We identified 471 differentially accumulated proteins, of which 256 were regulated by drought. The amplitude of up- and downregulations was greater in hybrids than in inbred lines. Our results show that hybrids respond more strongly to water deficit at the molecular and eco-physiological levels. Because of presence/absence polymorphism, hybrids potentially contain more genes than their parental inbred lines. We propose that detrimental homozygous mutations and the lower number of genes in inbred lines lead to a constitutive defense mechanism that may explain the lower growth of inbred lines under well-watered conditions and their lower reactivity to water deficit.

Keywords