The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development

Multicellular organisms perceive and transduce multiple cues to optimize development. Key transcription factors drive developmental changes, but RNA processing also contributes to tissue development. Here, we report that multiple decapping deficient mutants share developmental defects in apical hook...

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Autores principales: Zuo, Zhangli, Roux, Milena E, Chevalier, Jonathan R, Dagdas, Yasin F, Yamashino, Takafumi, Højgaard, Søren D, Knight, Emilie, Østergaard, Lars, Rodriguez, Eleazar, Petersen, Morten
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2023
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Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10310928/
https://www.ncbi.nlm.nih.gov/pubmed/37385753
http://dx.doi.org/10.26508/lsa.202302090
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author Zuo, Zhangli
Roux, Milena E
Chevalier, Jonathan R
Dagdas, Yasin F
Yamashino, Takafumi
Højgaard, Søren D
Knight, Emilie
Østergaard, Lars
Rodriguez, Eleazar
Petersen, Morten
author_facet Zuo, Zhangli
Roux, Milena E
Chevalier, Jonathan R
Dagdas, Yasin F
Yamashino, Takafumi
Højgaard, Søren D
Knight, Emilie
Østergaard, Lars
Rodriguez, Eleazar
Petersen, Morten
author_sort Zuo, Zhangli
collection PubMed
description Multicellular organisms perceive and transduce multiple cues to optimize development. Key transcription factors drive developmental changes, but RNA processing also contributes to tissue development. Here, we report that multiple decapping deficient mutants share developmental defects in apical hook, primary and lateral root growth. More specifically, LATERAL ORGAN BOUNDARIES DOMAIN 3 (LBD3)/ASYMMETRIC LEAVES 2-LIKE 9 (ASL9) transcripts accumulate in decapping deficient plants and can be found in complexes with decapping components. Accumulation of ASL9 inhibits apical hook and lateral root formation. Interestingly, exogenous auxin application restores lateral roots formation in both ASL9 over-expressors and mRNA decay–deficient mutants. Likewise, mutations in the cytokinin transcription factors type-B ARABIDOPSIS RESPONSE REGULATORS (B-ARRs) ARR10 and ARR12 restore the developmental defects caused by over-accumulation of capped ASL9 transcript upon ASL9 overexpression. Most importantly, loss-of-function of asl9 partially restores apical hook and lateral root formation in both dcp5-1 and pat triple decapping deficient mutants. Thus, the mRNA decay machinery directly targets ASL9 transcripts for decay, possibly to interfere with cytokinin/auxin responses, during development.
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spelling pubmed-103109282023-07-01 The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development Zuo, Zhangli Roux, Milena E Chevalier, Jonathan R Dagdas, Yasin F Yamashino, Takafumi Højgaard, Søren D Knight, Emilie Østergaard, Lars Rodriguez, Eleazar Petersen, Morten Life Sci Alliance Research Articles Multicellular organisms perceive and transduce multiple cues to optimize development. Key transcription factors drive developmental changes, but RNA processing also contributes to tissue development. Here, we report that multiple decapping deficient mutants share developmental defects in apical hook, primary and lateral root growth. More specifically, LATERAL ORGAN BOUNDARIES DOMAIN 3 (LBD3)/ASYMMETRIC LEAVES 2-LIKE 9 (ASL9) transcripts accumulate in decapping deficient plants and can be found in complexes with decapping components. Accumulation of ASL9 inhibits apical hook and lateral root formation. Interestingly, exogenous auxin application restores lateral roots formation in both ASL9 over-expressors and mRNA decay–deficient mutants. Likewise, mutations in the cytokinin transcription factors type-B ARABIDOPSIS RESPONSE REGULATORS (B-ARRs) ARR10 and ARR12 restore the developmental defects caused by over-accumulation of capped ASL9 transcript upon ASL9 overexpression. Most importantly, loss-of-function of asl9 partially restores apical hook and lateral root formation in both dcp5-1 and pat triple decapping deficient mutants. Thus, the mRNA decay machinery directly targets ASL9 transcripts for decay, possibly to interfere with cytokinin/auxin responses, during development. Life Science Alliance LLC 2023-06-29 /pmc/articles/PMC10310928/ /pubmed/37385753 http://dx.doi.org/10.26508/lsa.202302090 Text en © 2023 Zuo et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Zuo, Zhangli
Roux, Milena E
Chevalier, Jonathan R
Dagdas, Yasin F
Yamashino, Takafumi
Højgaard, Søren D
Knight, Emilie
Østergaard, Lars
Rodriguez, Eleazar
Petersen, Morten
The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development
title The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development
title_full The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development
title_fullStr The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development
title_full_unstemmed The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development
title_short The mRNA decapping machinery targets LBD3/ASL9 to mediate apical hook and lateral root development
title_sort mrna decapping machinery targets lbd3/asl9 to mediate apical hook and lateral root development
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10310928/
https://www.ncbi.nlm.nih.gov/pubmed/37385753
http://dx.doi.org/10.26508/lsa.202302090
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