4.7 Article

Comparative transcriptome analysis of the differentiating gonads in Scatophagus argus

Journal

FRONTIERS IN MARINE SCIENCE
Volume 9, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fmars.2022.962534

Keywords

transcriptomics; differentiating gonads; gonadal sex differentiation; gene expression; Scatophagus argus

Funding

  1. National Natural Science Foundation of China
  2. Guangdong Basic and Applied Basic Research Foundation
  3. Key Project of Blue Granary Science and Technology Innovation of the Ministry of Science and Technology
  4. [32172971]
  5. [2021A1515010430]
  6. [2018YFD0901203]

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This study presents the first report on the transcriptome analysis of gonads in differentiating spotted scat, revealing potential genes related to reproduction and gonadal development. The study provides insights into the expression patterns of sex and gonadal-related genes in differentiating gonads of this species.
The reproductive-related studies, including genetic and genomic such as gonadal transcriptome analyses, have previously focused on the adult spotted scat, with little information on juvenile fish. Transcriptomics is a powerful tool that allows for massive parallel analysis to identify differential expression and the patterns of gene expression holistically at a particular stage in a cell or tissue development. This study presents the first report on gonadal transcriptome analysis of the differentiating (juvenile; 4 months after hatch; stage I ovary and testis) spotted scat gonads. The study revealed potential reproduction and gonadal development-related genes. A total of 25936 genes were identified, of which 16248 were co-expressed, 17893 and 17258 expressed in males and females, respectively, from sequence data of testis I (n = 3) and ovary I (n = 2). A total of 6549 differentially expressed genes (DEGs) were identified between males and females. Genes attributable to male gonad development pathway such as dmrt1, gsdf, and amh are significantly expressed in differentiating testes, while female-related genes such as foxl2, cyp19a1a, 42sp50 and sox3 were expressed considerably in differentiating ovaries. In addition, dmrt1/dmrt1y was not expressed in the female (FPKM=0.00), while its paralog dmrt1b was expressed in both males and females. In the male pathway, dmrt1y and gsdf are critical for sex determination and maintenance while foxl2/foxl3 and cyp19a1a are critical in the female development pathway. The current studies provide an insight into the expression patterns of sex and gonadal-related genes in differentiating gonads of spotted scat.

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