Differential nucleosome occupancy modulates alternative splicing in Arabidopsis thaliana

Ibtissam Jabre; Saurabh Chaudhary; Cornelia Wilson; Naeem Syed; W. Guo; M. Kalyna; A. S. N. Reddy; W. Chen; R. Zhang

doi:10.1111/nph.17062

Differential nucleosome occupancy modulates alternative splicing in Arabidopsis thaliana

Ibtissam Jabre
, Saurabh Chaudhary
, Cornelia Wilson
, Naeem Syed
, W. Guo
, M. Kalyna
, A. S. N. Reddy
, W. Chen
, R. Zhang

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

• Alternative splicing (AS) is a major gene regulatory mechanism in plants. Recent evidence supports co-transcriptional splicing in plants, hence the chromatin state can impact AS. However, how dynamic changes in the chromatin state such as nucleosome occupancy influence the cold-induced AS remains poorly understood.
• Here, we generated transcriptome (RNA-Seq) and nucleosome positioning (MNase-Seq) data for Arabidopsis thaliana to understand how nucleosome positioning modulates cold-induced AS.
• Our results show that characteristic nucleosome occupancy levels are strongly associated with the type and abundance of various AS events under normal and cold temperature conditions in Arabidopsis. Intriguingly, exitrons, alternatively spliced internal regions of protein-coding exons, exhibit distinctive nucleosome positioning pattern compared to other alternatively spliced regions. Likewise, nucleosome patterns differ between exitrons and retained introns pointing to their distinct regulation.
• Collectively, our data show that characteristic changes in nucleosome positioning modulate AS in plants in response to cold.

Original language	English
Journal	New Phytologist
DOIs	https://doi.org/10.1111/nph.17062
Publication status	Published - 1 Nov 2020

Keywords

Alternative Splicing
Arabidopsis thaliana
Co-transcriptional Splicing
Cold stress
Exitrons
Nucleosome Positioning

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title = "Differential nucleosome occupancy modulates alternative splicing in Arabidopsis thaliana",

abstract = "• Alternative splicing (AS) is a major gene regulatory mechanism in plants. Recent evidence supports co-transcriptional splicing in plants, hence the chromatin state can impact AS. However, how dynamic changes in the chromatin state such as nucleosome occupancy influence the cold-induced AS remains poorly understood. • Here, we generated transcriptome (RNA-Seq) and nucleosome positioning (MNase-Seq) data for Arabidopsis thaliana to understand how nucleosome positioning modulates cold-induced AS. • Our results show that characteristic nucleosome occupancy levels are strongly associated with the type and abundance of various AS events under normal and cold temperature conditions in Arabidopsis. Intriguingly, exitrons, alternatively spliced internal regions of protein-coding exons, exhibit distinctive nucleosome positioning pattern compared to other alternatively spliced regions. Likewise, nucleosome patterns differ between exitrons and retained introns pointing to their distinct regulation. • Collectively, our data show that characteristic changes in nucleosome positioning modulate AS in plants in response to cold. ",

keywords = "Alternative Splicing, Arabidopsis thaliana, Co-transcriptional Splicing, Cold stress, Exitrons, Nucleosome Positioning",

author = "Ibtissam Jabre and Saurabh Chaudhary and Cornelia Wilson and Naeem Syed and W. Guo and M. Kalyna and Reddy, \{A. S. N.\} and W. Chen and R. Zhang",

year = "2020",

month = nov,

day = "1",

doi = "10.1111/nph.17062",

language = "English",

journal = "New Phytologist",

issn = "0028-646X",

publisher = "Wiley-Blackwell Publishing Ltd",

}

TY - JOUR

T1 - Differential nucleosome occupancy modulates alternative splicing in Arabidopsis thaliana

AU - Jabre, Ibtissam

AU - Chaudhary, Saurabh

AU - Wilson, Cornelia

AU - Syed, Naeem

AU - Guo, W.

AU - Kalyna, M.

AU - Reddy, A. S. N.

AU - Chen, W.

AU - Zhang, R.

PY - 2020/11/1

Y1 - 2020/11/1

N2 - • Alternative splicing (AS) is a major gene regulatory mechanism in plants. Recent evidence supports co-transcriptional splicing in plants, hence the chromatin state can impact AS. However, how dynamic changes in the chromatin state such as nucleosome occupancy influence the cold-induced AS remains poorly understood. • Here, we generated transcriptome (RNA-Seq) and nucleosome positioning (MNase-Seq) data for Arabidopsis thaliana to understand how nucleosome positioning modulates cold-induced AS. • Our results show that characteristic nucleosome occupancy levels are strongly associated with the type and abundance of various AS events under normal and cold temperature conditions in Arabidopsis. Intriguingly, exitrons, alternatively spliced internal regions of protein-coding exons, exhibit distinctive nucleosome positioning pattern compared to other alternatively spliced regions. Likewise, nucleosome patterns differ between exitrons and retained introns pointing to their distinct regulation. • Collectively, our data show that characteristic changes in nucleosome positioning modulate AS in plants in response to cold.

AB - • Alternative splicing (AS) is a major gene regulatory mechanism in plants. Recent evidence supports co-transcriptional splicing in plants, hence the chromatin state can impact AS. However, how dynamic changes in the chromatin state such as nucleosome occupancy influence the cold-induced AS remains poorly understood. • Here, we generated transcriptome (RNA-Seq) and nucleosome positioning (MNase-Seq) data for Arabidopsis thaliana to understand how nucleosome positioning modulates cold-induced AS. • Our results show that characteristic nucleosome occupancy levels are strongly associated with the type and abundance of various AS events under normal and cold temperature conditions in Arabidopsis. Intriguingly, exitrons, alternatively spliced internal regions of protein-coding exons, exhibit distinctive nucleosome positioning pattern compared to other alternatively spliced regions. Likewise, nucleosome patterns differ between exitrons and retained introns pointing to their distinct regulation. • Collectively, our data show that characteristic changes in nucleosome positioning modulate AS in plants in response to cold.

KW - Alternative Splicing

KW - Arabidopsis thaliana

KW - Co-transcriptional Splicing

KW - Cold stress

KW - Exitrons

KW - Nucleosome Positioning

U2 - 10.1111/nph.17062

DO - 10.1111/nph.17062

M3 - Article

SN - 0028-646X

JO - New Phytologist

JF - New Phytologist

ER -

Differential nucleosome occupancy modulates alternative splicing in Arabidopsis thaliana

Abstract

Keywords

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