Amylopectin Chain Length Dynamics and Activity Signatures of Key Carbon Metabolic Enzymes Highlight Early Maturation as Culprit for Yield Reduction of Barley Endosperm Starch after Heat Stress

Research output: Contribution to journalJournal articlepeer-review

  • Jose Antonio Cuesta-Seijo
  • Alice Jara De Porcellinis
  • Valente, Angela Hørdum
  • Alexander Striebeck
  • Cynthia Voss
  • Lucia Marri
  • Andreas Hansson
  • Anita M Jansson
  • Malene Hessellund Dinesen
  • Jonatan Ulrik Fangel
  • Jesper Harholt
  • Milan Popovic
  • Mercedes Thieme
  • Anton Hochmuth
  • Samuel C Zeeman
  • Teis Nørgaard Mikkelsen
  • Rikke Bagger Jørgensen
  • Roitsch, Thomas Georg
  • Møller, Birger Lindberg
  • Ilka Braumann

Environmental stress reduces yield and quality in crop plants. Understanding these stresses is an essential enabler for mitigating breeding strategies and becomes more important as the frequency of extreme weather events increases due to climate change. This study analyses the response of barley (Hordeum vulgare L.) to a heat wave during grain filling in three distinct stages: the heat wave itself, the return to a normal temperature regime, and the process of maturation and desiccation. The properties and structure of the starch produced was followed throughout maturational stages. Further, key enzymes involved in the carbohydrate supply of grains were monitored. Clear differences in starch structure were found, with well separated effects due to the heat wave itself and the senescence process. Heat stress produced marked effects on sucrolytic enzymes in source and sink tissues. Early cessation of plant development as an indirect consequence of the heat wave was identified as the major contributor to final yield loss from the stress, highlighting the importance for functional stay-green traits for the development of heat resistant cereals.

Original languageEnglish
JournalPlant and Cell Physiology
Volume60
Issue number12
Pages (from-to)2692-2706
Number of pages15
ISSN0032-0781
DOIs
Publication statusPublished - 2019

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