4.7 Article

Comprehensive transcriptomic analysis of two RIL parents with contrasting salt responsiveness identifies polyadenylated and non-polyadenylated flower lncRNAs in chickpea

Journal

PLANT BIOTECHNOLOGY JOURNAL
Volume 20, Issue 7, Pages 1402-1416

Publisher

WILEY
DOI: 10.1111/pbi.13822

Keywords

antisense transcribed; coding potential; flowering locus; intergenic; long noncoding RNA; salinity

Funding

  1. Australia-India Strategic Research Fund (AISRF) [GCF010013]
  2. Commonwealth of Australia

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Salinity severely affects the yield of chickpea. Understanding the role of lncRNAs can shed light on chickpea salt tolerance mechanisms. Through deep sequencing of two parental genotypes with different salt tolerance abilities, a large number of lncRNAs responding to salt stress were identified. These lncRNAs play important roles in post-transcriptional modification and gene silencing. Differentially expressed lncRNAs induced in the tolerant genotype but repressed in the sensitive genotype interact with flowering-related genes, chromatin remodeling, and DNA methylation genes, playing a crucial role in flowering under salt stress. These findings expand our understanding of the regulatory mechanisms controlled by lncRNAs under salt stress.
Salinity severely affects the yield of chickpea. Understanding the role of lncRNAs can shed light on chickpea salt tolerance mechanisms. However, because lncRNAs are encoded by multiple sites within the genome, their classification to reveal functional versatility at the transcriptional and the post-transcriptional levels is challenging. To address this, we deep sequenced 24 salt-challenged flower transcriptomes from two parental genotypes of a RIL population that significantly differ in salt tolerance ability. The transcriptomes for the first time included 12 polyadenylated and 12 non-polyadenylated RNA libraries to a sequencing depth of similar to 50 million reads. The ab initio transcriptome assembly comprised similar to 34 082 transcripts from three biological replicates of salt-tolerant (JG11) and salt-sensitive (ICCV2) flowers. A total of 9419 lncRNAs responding to salt stress were identified, 2345 of which were novel lncRNAs specific to chickpea. The expression of poly(A+) lncRNAs and naturally antisense transcribed RNAs suggest their role in post-transcriptional modification and gene silencing. Notably, 178 differentially expressed lncRNAs were induced in the tolerant genotype but repressed in the sensitive genotype. Co-expression network analysis revealed that the induced lncRNAs interacted with the FLOWERING LOCUS (FLC), chromatin remodelling and DNA methylation genes, thus inducing flowering during salt stress. Furthermore, 26 lncRNAs showed homology with reported lncRNAs such as COOLAIR, IPS1 and AT4, thus confirming the role of chickpea lncRNAs in controlling flowering time as a crucial salt tolerance mechanism in tolerant chickpea genotype. These robust set of differentially expressed lncRNAs provide a deeper insight into the regulatory mechanisms controlled by lncRNAs under salt stress.

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