Chromatin retained MUSHER lncRNA integrates ABA and DOG1 signalling pathways to enhance Arabidopsis seeds dormancy
Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized lncRNA - MUSHER , which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy. MUSHER is upregulated in response...
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| Published in | Nature communications Vol. 16; no. 1; pp. 7545 - 18 |
|---|---|
| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
14.08.2025
Nature Publishing Group Nature Portfolio |
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| Online Access | Get full text |
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| Abstract | Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target
loci
is unclear. We identify a chromatin-localized lncRNA -
MUSHER
, which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy.
MUSHER
is upregulated in response to high temperatures, contributing to the induction of secondary dormancy. It promotes
DOG1
expression by recruitment of the CPSF complex to enhance the proximal cleavage and polyadenylation at the
DOG1
transcript. It also increases ABA sensitivity in seeds by activating
PIR1
gene transcription. These genes, located on different chromosomes, are both bound by
MUSHER
, despite lacking sequence homology. The chromatin association of
MUSHER
enables the integration of the DOG1- and ABA pathways to adjust seed germination timing. Additionally,
MUSHER
and other lncRNAs interact with U1 snRNP, which is required for their chromatin localisation, revealing a role for U1 snRNP in plants.
Here the authors show that
MUSHER
lncRNA enhances Arabidopsis seed dormancy by integrating the ABA and DOG1 pathways. Chromatin retention of
MUSHER
and all other lncRNAs tested is mediated by U1 snRNP. |
|---|---|
| AbstractList | Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized lncRNA - MUSHER, which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy. MUSHER is upregulated in response to high temperatures, contributing to the induction of secondary dormancy. It promotes DOG1 expression by recruitment of the CPSF complex to enhance the proximal cleavage and polyadenylation at the DOG1 transcript. It also increases ABA sensitivity in seeds by activating PIR1 gene transcription. These genes, located on different chromosomes, are both bound by MUSHER, despite lacking sequence homology. The chromatin association of MUSHER enables the integration of the DOG1- and ABA pathways to adjust seed germination timing. Additionally, MUSHER and other lncRNAs interact with U1 snRNP, which is required for their chromatin localisation, revealing a role for U1 snRNP in plants.Here the authors show that MUSHER lncRNA enhances Arabidopsis seed dormancy by integrating the ABA and DOG1 pathways. Chromatin retention of MUSHER and all other lncRNAs tested is mediated by U1 snRNP. Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized lncRNA - MUSHER , which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy. MUSHER is upregulated in response to high temperatures, contributing to the induction of secondary dormancy. It promotes DOG1 expression by recruitment of the CPSF complex to enhance the proximal cleavage and polyadenylation at the DOG1 transcript. It also increases ABA sensitivity in seeds by activating PIR1 gene transcription. These genes, located on different chromosomes, are both bound by MUSHER , despite lacking sequence homology. The chromatin association of MUSHER enables the integration of the DOG1- and ABA pathways to adjust seed germination timing. Additionally, MUSHER and other lncRNAs interact with U1 snRNP, which is required for their chromatin localisation, revealing a role for U1 snRNP in plants. Here the authors show that MUSHER lncRNA enhances Arabidopsis seed dormancy by integrating the ABA and DOG1 pathways. Chromatin retention of MUSHER and all other lncRNAs tested is mediated by U1 snRNP. Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized lncRNA - MUSHER, which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy. MUSHER is upregulated in response to high temperatures, contributing to the induction of secondary dormancy. It promotes DOG1 expression by recruitment of the CPSF complex to enhance the proximal cleavage and polyadenylation at the DOG1 transcript. It also increases ABA sensitivity in seeds by activating PIR1 gene transcription. These genes, located on different chromosomes, are both bound by MUSHER, despite lacking sequence homology. The chromatin association of MUSHER enables the integration of the DOG1- and ABA pathways to adjust seed germination timing. Additionally, MUSHER and other lncRNAs interact with U1 snRNP, which is required for their chromatin localisation, revealing a role for U1 snRNP in plants. Abstract Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized lncRNA - MUSHER, which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy. MUSHER is upregulated in response to high temperatures, contributing to the induction of secondary dormancy. It promotes DOG1 expression by recruitment of the CPSF complex to enhance the proximal cleavage and polyadenylation at the DOG1 transcript. It also increases ABA sensitivity in seeds by activating PIR1 gene transcription. These genes, located on different chromosomes, are both bound by MUSHER, despite lacking sequence homology. The chromatin association of MUSHER enables the integration of the DOG1- and ABA pathways to adjust seed germination timing. Additionally, MUSHER and other lncRNAs interact with U1 snRNP, which is required for their chromatin localisation, revealing a role for U1 snRNP in plants. Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized lncRNA - MUSHER, which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy. MUSHER is upregulated in response to high temperatures, contributing to the induction of secondary dormancy. It promotes DOG1 expression by recruitment of the CPSF complex to enhance the proximal cleavage and polyadenylation at the DOG1 transcript. It also increases ABA sensitivity in seeds by activating PIR1 gene transcription. These genes, located on different chromosomes, are both bound by MUSHER, despite lacking sequence homology. The chromatin association of MUSHER enables the integration of the DOG1- and ABA pathways to adjust seed germination timing. Additionally, MUSHER and other lncRNAs interact with U1 snRNP, which is required for their chromatin localisation, revealing a role for U1 snRNP in plants.Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized lncRNA - MUSHER, which activates two parallel regulatory pathways to increase Arabidopsis seed dormancy. MUSHER is upregulated in response to high temperatures, contributing to the induction of secondary dormancy. It promotes DOG1 expression by recruitment of the CPSF complex to enhance the proximal cleavage and polyadenylation at the DOG1 transcript. It also increases ABA sensitivity in seeds by activating PIR1 gene transcription. These genes, located on different chromosomes, are both bound by MUSHER, despite lacking sequence homology. The chromatin association of MUSHER enables the integration of the DOG1- and ABA pathways to adjust seed germination timing. Additionally, MUSHER and other lncRNAs interact with U1 snRNP, which is required for their chromatin localisation, revealing a role for U1 snRNP in plants. |
| ArticleNumber | 7545 |
| Author | Wrona, Magdalena Szewc, Lukasz Sacharowski, Sebastian Przemyslaw Rogowski, Karol Jerzy Montez, Miguel Jarmolowski, Artur Rosol, Katarzyna Yatusevich, Ruslan Brzezniak, Lien Manjunath, Veena Halale Krzyszton, Michal Swiezewski, Szymon |
| Author_xml | – sequence: 1 givenname: Sebastian Przemyslaw orcidid: 0000-0001-8220-9649 surname: Sacharowski fullname: Sacharowski, Sebastian Przemyslaw organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS – sequence: 2 givenname: Michal orcidid: 0000-0002-9795-5588 surname: Krzyszton fullname: Krzyszton, Michal organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS – sequence: 3 givenname: Lien orcidid: 0000-0002-6932-413X surname: Brzezniak fullname: Brzezniak, Lien organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS – sequence: 4 givenname: Karol Jerzy orcidid: 0000-0003-4560-0715 surname: Rogowski fullname: Rogowski, Karol Jerzy organization: ElementZero Biolabs – sequence: 5 givenname: Miguel orcidid: 0000-0002-1383-0885 surname: Montez fullname: Montez, Miguel organization: Department of Cell and Developmental Biology, John Innes Centre, Norwich Research Park – sequence: 6 givenname: Katarzyna surname: Rosol fullname: Rosol, Katarzyna organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS – sequence: 7 givenname: Magdalena orcidid: 0000-0001-9619-9664 surname: Wrona fullname: Wrona, Magdalena organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS – sequence: 8 givenname: Ruslan orcidid: 0000-0001-5382-4079 surname: Yatusevich fullname: Yatusevich, Ruslan organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS – sequence: 9 givenname: Veena Halale surname: Manjunath fullname: Manjunath, Veena Halale organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS, Doctoral School of Molecular Biology and Biological Chemistry, Institute of Biochemistry and Biophysics PAS – sequence: 10 givenname: Lukasz surname: Szewc fullname: Szewc, Lukasz organization: Department of Gene Expression, Institute of Molecular Biology and Biotechnology, Faculty of Biology, Adam Mickiewicz University – sequence: 11 givenname: Artur surname: Jarmolowski fullname: Jarmolowski, Artur organization: Department of Gene Expression, Institute of Molecular Biology and Biotechnology, Faculty of Biology, Adam Mickiewicz University – sequence: 12 givenname: Szymon orcidid: 0000-0002-2007-2779 surname: Swiezewski fullname: Swiezewski, Szymon email: sswiez@ibb.waw.pl organization: Laboratory of Seed Molecular Biology, Institute of Biochemistry and Biophysics PAS |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/40813580$$D View this record in MEDLINE/PubMed |
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| Snippet | Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target
loci
is unclear. We identify a chromatin-localized... Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a chromatin-localized... Abstract Many plant lncRNAs regulate gene expression by binding to chromatin, but how they are retained at the target loci is unclear. We identify a... |
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| SubjectTerms | 38/1 38/109 38/15 38/22 38/23 38/32 38/77 38/88 38/90 38/91 631/337/384/2568 631/449/1659 631/449/2679 Abscisic acid Abscisic Acid - metabolism Arabidopsis Arabidopsis - genetics Arabidopsis - metabolism Arabidopsis - physiology Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Chromatin Chromatin - genetics Chromatin - metabolism Chromosomes Dormancy Gene expression Gene Expression Regulation, Plant Genomes Germination Germination - genetics High temperature Homology Humanities and Social Sciences multidisciplinary Mutation Non-coding RNA Plant Dormancy - genetics Polyadenylation Proteins Retention Ribonucleoproteins (small nuclear) RNA polymerase RNA, Long Noncoding - genetics RNA, Long Noncoding - metabolism Science Science (multidisciplinary) Seed germination Seeds Seeds - genetics Seeds - metabolism Signal transduction Signal Transduction - genetics |
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| Title | Chromatin retained MUSHER lncRNA integrates ABA and DOG1 signalling pathways to enhance Arabidopsis seeds dormancy |
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