Acquisition of hypoxia inducibility by oxygen sensing N-terminal cysteine oxidase in spermatophytes

Daan A Weits, Lina Zhou, Beatrice Giuntoli, Laura Dalle Carbonare, Sergio Iacopino, Luca Piccinini, Lara Lombardi, Vinay Shukla, Liem T Bui, Giacomo Novi, Joost T van Dongen, Francesco Licausi

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

N-terminal cysteine oxidases (NCOs) use molecular oxygen to oxidise the amino-terminal cysteine of specific proteins, thereby initiating the proteolytic N-degron pathway. To expand the characterisation of the plant family of NCOs (plant cysteine oxidases [PCOs]), we performed a phylogenetic analysis across different taxa in terms of sequence similarity and transcriptional regulation. Based on this survey, we propose a distinction of PCOs into two main groups. A-type PCOs are conserved across all plant species and are generally unaffected at the messenger RNA level by oxygen availability. Instead, B-type PCOs appeared in spermatophytes to acquire transcriptional regulation in response to hypoxia. The inactivation of two A-type PCOs in Arabidopsis thaliana, PCO4 and PCO5, is sufficient to activate the anaerobic response in young seedlings, whereas the additional removal of B-type PCOs leads to a stronger induction of anaerobic genes and impairs plant growth and development. Our results show that both PCO types are required to regulate the anaerobic response in angiosperms. Therefore, while it is possible to distinguish two clades within the PCO family, we conclude that they all contribute to restrain the anaerobic transcriptional programme in normoxic conditions and together generate a molecular switch to toggle the hypoxic response.

Original languageEnglish
Pages (from-to)322-338
Number of pages17
JournalPlant, Cell and Environment
Volume46
Issue number1
Early online date19 Sept 2022
DOIs
Publication statusPublished - Jan 2023

Keywords

  • N-degron pathway
  • cysteine oxidation
  • hypoxia
  • oxygen sensing
  • plant evolution
  • regulation of gene expression

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