A survey of the sorghum transcriptome using single-molecule long reads

Abdel‐Ghany, Salah E.; Hamilton, Michael; Jacobi, Jennifer L.; Ngam, Peter; Devitt, Nicholas P.; Schilkey, Faye; Ben‐Hur, Asa; Reddy, Anireddy S. N.

doi:10.1038/ncomms11706

Cited by 432 publications

(453 citation statements)

References 58 publications

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“…Maize has the largest collection of RNA-Seq data among the nine species examined, and also has the largest number of AS events, but the percentage of multi-exon genes that undergo AS is similar to other species. The proportions of genes that undergo AS and the total number of AS events are higher than previously reported for many plant species (Campbell et al 2006;Amborella Genome Project 2013;Walters et al 2013;Panahi et al 2014;Abdel-Ghany et al 2016). Similar to previous genome-wide AS studies Thatcher et al 2014;Chamala et al 2015;Mandadi and Scholthof 2015), IntronR was the most commonly observed AS event type in monocots.…”

Section: Resultssupporting

confidence: 69%

Evolutionarily Conserved Alternative Splicing Across Monocots

et al. 2017

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One difficulty when identifying alternative splicing (AS) events in plants is distinguishing functional AS from splicing noise. One way to add confidence to the validity of a splice isoform is to observe that it is conserved across evolutionarily related species. We use a high throughput method to identify junction-based conserved AS events from RNA-Seq data across nine plant species, including five grass monocots (maize, sorghum, rice, Brachpodium, and foxtail millet), plus two nongrass monocots (banana and African oil palm), the eudicot Arabidopsis, and the basal angiosperm Amborella. In total, 9804 AS events were found to be conserved between two or more species studied. In grasses containing large regions of conserved synteny, the frequency of conserved AS events is twice that observed for genes outside of conserved synteny blocks. In plant-specific RS and RS2Z subfamilies of the serine/arginine (SR) splicefactor proteins, we observe both conservation and divergence of AS events after the whole genome duplication in maize. In addition, plant-specific RS and RS2Z splice-factor subfamilies are highly connected with R2R3-MYB in STRING functional protein association networks built using genes exhibiting conserved AS. Furthermore, we discovered that functional protein association networks constructed around genes harboring conserved AS events are enriched for phosphatases, kinases, and ubiquitylation genes, which suggests that AS may participate in regulating signaling pathways. These data lay the foundation for identifying and studying conserved AS events in the monocots, particularly across grass species, and this conserved AS resource identifies an additional layer between genotype to phenotype that may impact future crop improvement efforts.

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Section: Resultssupporting

confidence: 69%

Evolutionarily Conserved Alternative Splicing Across Monocots

et al. 2017

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“…With the help of IsoSeq, an astonishing diversity of splicing events in various systems has started to emerge even in well-studied cancer cell-line systems such as MCF7 [5]. A number of other analyses in other cellular contexts have also utilized the IsoSeq assay [6][7][8][9][10][11]. Given that alternative splicing is known to be tissue and condition dependent, we hypothesized that drug administration should also alter the splicing landscape of cells as part of multifaceted cellular response to stimuli which cannot be completely captured using standard RNAseq analysis.…”

Section: Introductionmentioning

confidence: 99%

Characterization of drug-induced splicing complexity in prostate cancer cell line using long read technology

et al. 2017

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We characterize the transcriptional splicing landscape of a prostate cancer cell line treated with a previously identified synergistic drug combination. We use a combination of third generation long-read RNA sequencing technology and short-read RNAseq to create a high-fidelity map of expressed isoforms and fusions to quantify splicing events triggered by treatment. We find strong evidence for drug-induced, coherent splicing changes which disrupt the function of oncogenic proteins, and detect novel transcripts arising from previously unreported fusion events.

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“…This process can have phenotypic effects on par with changes in gene expression levels [37,38]. While gene expression studies using RNA sequencing generally infer patterns of alternative splicing, short-read sequencing is limited in its ability to quantify expression at the transcript level [39]. The increasing availability of longer reads [39] and improved bioinformatics tools [40] will lead to a greater understanding and appreciation of the role of alternative splicing in evolution and phenotypic outcomes.…”

Section: Challenges and Future Directionsmentioning

confidence: 99%

“…While gene expression studies using RNA sequencing generally infer patterns of alternative splicing, short-read sequencing is limited in its ability to quantify expression at the transcript level [39]. The increasing availability of longer reads [39] and improved bioinformatics tools [40] will lead to a greater understanding and appreciation of the role of alternative splicing in evolution and phenotypic outcomes. A globally diverse set of transcriptomes will also be useful for mapping population specific alternative splicing patterns.…”

Section: Challenges and Future Directionsmentioning

confidence: 99%

Global variation in gene expression and the value of diverse sampling

Kelly

Hansen

Tishkoff

2017

Current Opinion in Systems Biology

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The genomics era has accelerated our understanding of how genetic and epigenetic factors influence both normal variable traits and disease risk in humans. However, the majority of “omics” studies have focused on individuals living in urban centers, primarily from Europe and Asia, neglecting much of the genetic and environmental variation that exists across worldwide populations. Comparative studies of gene regulation in ethnically diverse populations are informing our understanding of how evolutionary forces have shaped the genetic and molecular mechanisms underlying complex traits, and studying gene expression in different environmental contexts is enabling the dissection of disease-related pathways such as immune response. Such approaches are vital to the equitable application of genomics and medicine.

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A survey of the sorghum transcriptome using single-molecule long reads

Cited by 432 publications

References 58 publications

Evolutionarily Conserved Alternative Splicing Across Monocots

Evolutionarily Conserved Alternative Splicing Across Monocots

Characterization of drug-induced splicing complexity in prostate cancer cell line using long read technology

Global variation in gene expression and the value of diverse sampling

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