Alternative splicing in plants: emerging order from chaos

Ibtissam Jabre; Waqas Khokhar; Anireddy S. N. Reddy; Cornelia Wilson; Naeem Syed

doi:10.1016/j.tplants.2026.04.001

Alternative splicing in plants: emerging order from chaos

Ibtissam Jabre
, Waqas Khokhar
, Anireddy S. N. Reddy
, Cornelia Wilson
, Naeem Syed

Natural Sciences

University of Cambridge
Colorado State University

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

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Abstract

Alternative splicing (AS) is a key evolutionary innovation that adds a regulatory
layer to gene expression. Being predominantly co-transcriptional, AS is influenced by chromatin state, enabling appropriate and repeatable gene expression patterns under stress or adaptive conditions. Chromatin state may influence early co-transcriptional steps of AS, potentially modulating gene expression patterns during environmental or adaptive responses. Recent evidence shows that AS not only modulates gene expression but can also increase protein diversity under specific conditions. To fully understand its roles in regulation, diversification, and evolution, research must move beyond condition-specific studies to population-level analyses. Comparing relict (survivors from glacial refugia) and global arabidopsis (Arabidopsis thaliana) populations for transcript isoform and protein diversity could reveal how AS contributes to stress tolerance and adaptation.

Original language	English
Article number	2965
Pages (from-to)	1
Number of pages	16
Journal	Trends in Plant Science
DOIs	https://doi.org/10.1016/j.tplants.2026.04.001
Publication status	Published - 23 Apr 2026

Keywords

Alternative splicing
Regulated stochasticity
Protein diversity
Splicing memory
Isoform switching
Nonsense-mediated decay

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title = "Alternative splicing in plants: emerging order from chaos",

abstract = "Alternative splicing (AS) is a key evolutionary innovation that adds a regulatory layer to gene expression. Being predominantly co-transcriptional, AS is influenced by chromatin state, enabling appropriate and repeatable gene expression patterns under stress or adaptive conditions. Chromatin state may influence early co-transcriptional steps of AS, potentially modulating gene expression patterns during environmental or adaptive responses. Recent evidence shows that AS not only modulates gene expression but can also increase protein diversity under specific conditions. To fully understand its roles in regulation, diversification, and evolution, research must move beyond condition-specific studies to population-level analyses. Comparing relict (survivors from glacial refugia) and global arabidopsis (Arabidopsis thaliana) populations for transcript isoform and protein diversity could reveal how AS contributes to stress tolerance and adaptation.",

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doi = "10.1016/j.tplants.2026.04.001",

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T1 - Alternative splicing in plants: emerging order from chaos

AU - Jabre, Ibtissam

AU - Khokhar, Waqas

AU - Reddy, Anireddy S. N.

AU - Wilson, Cornelia

AU - Syed, Naeem

PY - 2026/4/23

Y1 - 2026/4/23

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AB - Alternative splicing (AS) is a key evolutionary innovation that adds a regulatory layer to gene expression. Being predominantly co-transcriptional, AS is influenced by chromatin state, enabling appropriate and repeatable gene expression patterns under stress or adaptive conditions. Chromatin state may influence early co-transcriptional steps of AS, potentially modulating gene expression patterns during environmental or adaptive responses. Recent evidence shows that AS not only modulates gene expression but can also increase protein diversity under specific conditions. To fully understand its roles in regulation, diversification, and evolution, research must move beyond condition-specific studies to population-level analyses. Comparing relict (survivors from glacial refugia) and global arabidopsis (Arabidopsis thaliana) populations for transcript isoform and protein diversity could reveal how AS contributes to stress tolerance and adaptation.

KW - Alternative splicing

KW - Regulated stochasticity

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KW - Splicing memory

KW - Isoform switching

KW - Nonsense-mediated decay

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Alternative splicing in plants: emerging order from chaos

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