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Unfolded protein-independent IRE1 activation contributes to multifaceted developmental processes in Arabidopsis.


ABSTRACT: In Arabidopsis, the IRE1A and IRE1B double mutant (ire1a/b) is unable to activate cytoplasmic splicing of bZIP60 mRNA and regulated IRE1-dependent decay under ER stress, whereas the mutant does not exhibit severe developmental defects under normal conditions. In this study, we focused on the Arabidopsis IRE1C gene, whose product lacks a sensor domain. We found that the ire1a/b/c triple mutant is lethal, and heterozygous IRE1C (ire1c/+) mutation in the ire1a/b mutants resulted in growth defects and reduction of the number of pollen grains. Genetic analysis revealed that IRE1C is required for male gametophyte development in the ire1a/b mutant background. Expression of a mutant form of IRE1B that lacks the luminal sensor domain (?LD) complemented a developmental defect in the male gametophyte in ire1a/b/c haplotype. In vivo, the ?LD protein was activated by glycerol treatment that increases the composition of saturated lipid and was able to activate regulated IRE1-dependent decay but not bZIP60 splicing. These observations suggest that IRE1 contributes to plant development, especially male gametogenesis, using an alternative activation mechanism that bypasses the unfolded protein-sensing luminal domain.

SUBMITTER: Mishiba KI 

PROVIDER: S-EPMC6788458 | biostudies-literature | 2019 Oct

REPOSITORIES: biostudies-literature

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Unfolded protein-independent IRE1 activation contributes to multifaceted developmental processes in Arabidopsis.

Mishiba Kei-Ichiro KI   Iwata Yuji Y   Mochizuki Tomofumi T   Matsumura Atsushi A   Nishioka Nanami N   Hirata Rikako R   Koizumi Nozomu N  

Life science alliance 20191010 5


In Arabidopsis, the <i>IRE1A</i> and <i>IRE1B</i> double mutant (<i>ire1a/b</i>) is unable to activate cytoplasmic splicing of <i>bZIP60</i> mRNA and regulated IRE1-dependent decay under ER stress, whereas the mutant does not exhibit severe developmental defects under normal conditions. In this study, we focused on the Arabidopsis <i>IRE1C</i> gene, whose product lacks a sensor domain. We found that the <i>ire1a/b/c</i> triple mutant is lethal, and heterozygous <i>IRE1C</i> (<i>ire1c</i>/+) muta  ...[more]

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