Comparative transcriptome analysis on four types of gonadal tissues of blotched snakehead (Channa maculata)

Abstract

Blotched snakehead (Channa maculata) is an economically important freshwater fish in China, of which males grow much faster than females. To illuminate the molecular mechanism of sex differentiation and gonad development, RNA-Sequencing was performed to identify sex-related genes and pathway in gonads of 6-month-old normal XX females (XX-F), normal XY males (XY-M), XY sex reversal females (XY-F) and YY super-males (YY-M). The analysis showed that many differentially expressed genes (DEGs) had similar expression patterns in XY-F and XX-F, which were different from XY-M and YY-M. qRT-PCR indicated that Amh, Dmrt1, and Sox9 had relatively high expression in testes of XY-M and YY-M. Taking Amh as an example, there was a relative fold change of 1.0 in XX-F, 2.1 fold change in XY-F, 36.1 fold change in XY-M, and 26.0 fold change in YY-M. Cyp19a1a, Figla, and Foxl2 were highly expressive in ovaries of XX-F and XY-F. Taking Figla as an example, there was a relative fold change of 557 in XX-F, 304.5 fold change in XY-F, 5.6 fold change in XY-M, and 4.4 fold change in YY-M. KEGG analysis revealed many DEGs distributed in pathways related to sex differentiation, steroid hormone synthesis and growth, etc. Significant variation and trends in relative expression levels tested by qRT-PCR were consistent with those recorded by RNA-Sequencing. This is the first time that transcriptome of snakehead has been investigated systematically and in an integrated way. Large quantities of candidate genes involved in sex differentiation, gonad development and growth dimorphism were identified. The study provides useful resources for understanding sex differentiation and growth dimorphism, potentially assisting mono-sex production of snakehead in aquaculture.