Rice Overexpressing OsNUC1-S Reveals Differential Gene Expression Leading to Yield Loss Reduction after Salt Stress at the Booting Stage

Boonchai, Chuthamas; Udomchalothorn, Thanikarn; Sripinyowanich, Siriporn; Comai, Luca; Buaboocha, Teerapong; Chadchawan, Supachitra

doi:10.3390/ijms19123936

Cited by 16 publications

(14 citation statements)

References 28 publications

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“…These studies reported that heterosis in the hybrid is the result of allelic interactions between its parental genomes and subsequent altered programming of genes promoting growth, tolerance to stress, and fitness of hybrids [16]. However, the usage of flag leaf in our study makes our exceptional when compared other reports, as it is considered as the energy sources for rice grain development [17][18][19]. In order to deduce the complex molecular mechanism of rice heterosis, an in-depth understanding is required at the level of global gene expression in hybrids and the parents.…”

Section: Introductionmentioning

confidence: 67%

Differential Expression of Genes at Panicle Initiation and Grain Filling Stages Implied in Heterosis of Rice Hybrids

Katara

Verma

Parida

et al. 2020

IJMS

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RNA-Seq technology was used to analyze the transcriptome of two rice hybrids, Ajay (based on wild-abortive (WA)-cytoplasm) and Rajalaxmi (based on Kalinga-cytoplasm), and their respective parents at the panicle initiation (PI) and grain filling (GF) stages. Around 293 and 302 million high quality paired-end reads of Ajay and Rajalaxmi, respectively, were generated and aligned against the Nipponbare reference genome. Transcriptome profiling of Ajay revealed 2814 and 4819 differentially expressed genes (DEGs) at the PI and GF stages, respectively, as compared to its parents. In the case of Rajalaxmi, 660 and 5264 DEGs were identified at PI and GF stages, respectively. Functionally relevant DEGs were selected for validation through qRT-PCR, which were found to be co-related with the expression patterns to RNA-seq. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis indicated significant DEGs enriched for energy metabolism pathways, such as photosynthesis, oxidative phosphorylation, and carbon fixation, at the PI stage, while carbohydrate metabolism-related pathways, such as glycolysis and starch and sucrose metabolism, were significantly involved at the GF stage. Many genes involved in energy metabolism exhibited upregulation at the PI stage, whereas the genes involved in carbohydrate biosynthesis had higher expression at the GF stage. The majority of the DEGs were successfully mapped to know yield related rice quantitative trait loci (QTLs). A set of important transcription factors (TFs) was found to be encoded by the identified DEGs. Our results indicated that a complex interplay of several genes in different pathways contributes to higher yield and vigor in rice hybrids.

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Section: Introductionmentioning

confidence: 67%

Differential Expression of Genes at Panicle Initiation and Grain Filling Stages Implied in Heterosis of Rice Hybrids

Katara

Verma

Parida

et al. 2020

IJMS

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“…There were two GSS events, for the combination of Intron 147728 and Intron 147745 in the gene, OsNUC1 ( LOC_Os04g52960 ), which has been identified as a salt‐responsive gene (Sripinyowanich et al ., 2013; Udomchalothorn et al ., 2017; Boonchai et al ., 2018). Introns 147728 and 147745, located in between the third and fourth exons of OsNUC1 , are a pair of AltA events with the same 5′ end and similar lengths (Table 2), but Intron 147728 is six nucleotides shorter than Intron 147745 at the 3′ end (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…OsNUC1 contains five domains: bipartite nuclear localisation signal (NLS), the SR region, two RNA recognition motifs (RRM), and a C‐terminal glycine‐ and arginine‐rich (GAR) domain (Sripinyowanich et al ., 2013). Previous studies have reported that OsNUC1 is a salt‐responsive gene and its over‐expression enhances salt tolerance in transgenic Arabidopsis and rice (Sripinyowanich et al ., 2013; Udomchalothorn et al ., 2017; Boonchai et al ., 2018). In our study, the transcript abundance of OsNUC1 was significantly downregulated under salt stress.…”

Section: Discussionmentioning

confidence: 99%

Genome‐wide discovery of natural variation in pre‐mRNA splicing and prioritising causal alternative splicing to salt stress response in rice

Campbell

et al. 2021

New Phytologist

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Pre-mRNA splicing is an essential step for the regulation of gene expression. In order to specifically capture splicing variants in plants for genome-wide association studies (GWAS), we developed a software tool to quantify and visualise Variations of Splicing in Population (VASP). VASP can quantify splicing variants from short-read RNA-seq datasets and discover genotype-specific splicing (GSS) events, which can be used to prioritise causal pre-mRNA splicing events in GWAS. We applied our method to an RNA-seq dataset with 328 samples from 82 genotypes from a rice diversity panel exposed to optimal and saline growing conditions. In total, 764 significant GSS events were identified in salt stress conditions. GSS events were used as markers for a GWAS with the shoot Na + accumulation, which identified six GSS events in five genes significantly associated with the shoot Na + content. Two of these genes, OsNUC1 and OsRAD23 emerged as top candidate genes with splice variants that exhibited significant divergence between the variants for shoot growth under salt stress conditions. VASP is a versatile tool for alternative splicing analysis in plants and a powerful tool for prioritising candidate causal pre-mRNA splicing and corresponding genomic variations in GWAS.

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“…In total, there were 12 samples of RNA-seq data; six salinity stress samples and six control samples. Complete sample preparation and data analysis are explained in Boonchai et al (2018) [33] . Briefly, total RNA was extracted from rice flag leaf samples of both control and salt stress conditions by using Invitrogen’s Concert™ Plant RNA Reagent.…”

Section: Methodsmentioning

confidence: 99%

Deciphering rice metabolic flux reprograming under salinity stress via in silico metabolic modeling

Wanichthanarak

Boonchai

Kojonna

et al. 2020

Computational and Structural Biotechnology Journal

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Highlights Integrative GEMs can reveal the metabolic responses of rice to salinity stress. Photosynthesis and hexose utilization were downregulated by salinity stress. Photorespiration was enhanced and could contribute to redox homeostasis under salinity stress. Flux predictions, metabolite levels and photosynthesis parameters were in good agreement.

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Rice Overexpressing OsNUC1-S Reveals Differential Gene Expression Leading to Yield Loss Reduction after Salt Stress at the Booting Stage

Cited by 16 publications

References 28 publications

Differential Expression of Genes at Panicle Initiation and Grain Filling Stages Implied in Heterosis of Rice Hybrids

Differential Expression of Genes at Panicle Initiation and Grain Filling Stages Implied in Heterosis of Rice Hybrids

Genome‐wide discovery of natural variation in pre‐mRNA splicing and prioritising causal alternative splicing to salt stress response in rice

Deciphering rice metabolic flux reprograming under salinity stress via in silico metabolic modeling

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