4.7 Article

Full-Length RNA Sequencing Provides Insights into Goldfish Evolution under Artificial Selection

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Publisher

MDPI
DOI: 10.3390/ijms24032735

Keywords

goldfish; full-length transcriptome; alternative splicing; alternative polyadenylation; gene fusion; differentially expressed genes

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In this study, hybrid transcriptome sequencing was used to analyze the gene expression profiles of Celestial-Eye (CE) and Ryukin (RK) goldfish embryos. Thousands of alternative splicing and alternative polyadenylation events were identified, most of which were breed-specific. RNA-seq analysis revealed extensive differences in gene expression between CE and RK goldfish at each embryonic stage, indicating that artificial selection has had far-reaching effects on goldfish gene expression.
Goldfish Carassius auratus is an ideal model for exploring fish morphology evolution. Although genes underlying several ornamental traits have been identified, little is known about the effects of artificial selection on embryo gene expression. In the present study, hybrid transcriptome sequencing was conducted to reveal gene expression profiles of Celestial-Eye (CE) and Ryukin (RK) goldfish embryos. Full-length transcriptome sequencing on the PacBio platform identified 54,218 and 54,106 transcript isoforms in CE and RK goldfish, respectively. Of particular note was that thousands of alternative splicing (AS) and alternative polyadenylation (APA) events were identified in both goldfish breeds, and most of them were inter-breed specific. RT-PCR and Sanger sequencing showed that most of the predicted AS and APA were correct. Moreover, abundant long non-coding RNA and fusion genes were detected, and again most of them were inter-breed specific. Through RNA-seq, we detected thousands of differentially expressed genes (DEGs) in each embryonic stage between the two goldfish breeds. KEGG enrichment analysis on DEGs showed extensive differences between CE and RK goldfish in gene expression. Taken together, our results demonstrated that artificial selection has led to far-reaching influences on goldfish gene expression, which probably laid the genetic basis for hundreds of goldfish variations.

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