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A molecular framework for grain number determination in barley.

Yongyu HuangRoop Kamal MuqaddasiNandhakumar ShanmugarajTwan RuttenVenkatasubbu ThirulogachandarShuangshuang ZhaoIris HoffieGoetz HenselJeyaraman RajaramanYudelsy Antonia Tandron MoyaMohammad Reza HajirezaeiAxel HimmelbachNaser PoursarebaniUdda LundqvistJochen KumlehnNils SteinNicolaus von WirénMartin MascherMichael MelzerThorsten Schnurbusch
Published in: Science advances (2023)
Flowering plants with indeterminate inflorescences often produce more floral structures than they require. We found that floral primordia initiations in barley ( Hordeum vulgare L.) are molecularly decoupled from their maturation into grains. While initiation is dominated by flowering-time genes, floral growth is specified by light signaling, chloroplast, and vascular developmental programs orchestrated by barley CCT MOTIF FAMILY 4 ( HvCMF4 ), which is expressed in the inflorescence vasculature. Consequently, mutations in HvCMF4 increase primordia death and pollination failure, mainly through reducing rachis greening and limiting plastidial energy supply to developing heterotrophic floral tissues. We propose that HvCMF4 is a sensory factor for light that acts in connection with the vascular-localized circadian clock to coordinate floral initiation and survival. Notably, stacking beneficial alleles for both primordia number and survival provides positive implications on grain production. Our findings provide insights into the molecular underpinnings of grain number determination in cereal crops.
Keyphrases
  • arabidopsis thaliana
  • solid phase extraction
  • public health
  • molecularly imprinted
  • high resolution
  • free survival
  • mass spectrometry
  • fine needle aspiration