Abstract
Goldfish is an ornamental fish with diverse phenotypes. However, the limited genomic resources of goldfish hamper our understanding of the genetic basis for its phenotypic diversity. To provide enriched genomic resources and infer possible mechanisms underlying skin pigmentation, we performed a large-scale transcriptomic sequencing on 13 adult goldfish tissues, larvae at one- and three-days post hatch, and skin tissues with four different color pigmentation. A total of 25.52 Gb and 149.80 Gb clean data were obtained using the PacBio and Illumina platforms, respectively. Onto the goldfish reference genome, we mapped 137,674 non-redundant transcripts, of which 5.54% was known isoforms and 78.53% was novel isoforms of the reference genes, and the remaining 21,926 isoforms are novel isoforms of additional new genes. Both skin-specific and color-specific transcriptomic analyses showed that several significantly enriched genes were known to be involved in melanogenesis, tyrosine metabolism, PPAR signaling pathway, folate biosynthesis metabolism and so on. Thirteen differentially expressed genes across different color skins were associated with melanogenesis and pteridine synthesis including mitf, ednrb, mc1r, tyr, mlph and gch1, and xanthophore differentiation such as pax7, slc2a11 and slc2a15. These transcriptomic data revealed pathways involved in goldfish pigmentation and improved the gene annotation of the reference genome.
Highlights
Goldfish is an ornamental fish with diverse phenotypes
Among the consensus sequences (CCS) reads, 573,366 (90.71%) reads were identified as full-length non-chimeric (Flnc) transcripts, 47,515 (7.52%) reads were identified as non-full length non-chimeric (Nflnc) reads, and 11,218 (1.77%) were identified as chimeric reads (CR)
The Flnc reads were clustered by Iterative Clustering for Error Correction (ICE) algorithm to generate the consensus sequences and the Nflnc sequences were used to polish the ICE consensus sequences
Summary
Goldfish is an ornamental fish with diverse phenotypes. the limited genomic resources of goldfish hamper our understanding of the genetic basis for its phenotypic diversity. Thirteen differentially expressed genes across different color skins were associated with melanogenesis and pteridine synthesis including mitf, ednrb, mc1r, tyr, mlph and gch[1], and xanthophore differentiation such as pax[7], slc2a11 and slc2a15 These transcriptomic data revealed pathways involved in goldfish pigmentation and improved the gene annotation of the reference genome. At least 180 variants and 70 genetically established strains are currently generated according to their body shape, coloration, scale, as well as fin, eye, and hood m orphology[1,3] Such wide diversity of phenotypes makes goldfish an excellent model to study vertebrate development, evolution and human d isease[2,3]. It has been widely applied to obtain full-length transcripts in species with reference genomes such as human12, zebrafish13, rice[14], and sorghum[15], and species without reference genomes such as Gymnocypris selincuoensis[16] and Misgurnus anguillicaudatus[17]
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