Genome-wide investigation of Dmrt gene family in large yellow croaker (Larimichthys crocea)

Abstract

The Dmrt (Doublesex and Mab-3 related transcription factor) gene family is a class of crucial transcription factors characterized by a conserved DM (Doublesex/Mab-3) domain. Previous researches indicate this gene family is involved in various physiological processes, especially in sex determination/differentiation and gonad development. Despite the vital roles of the Dmrt gene family in physiological processes, the comprehensive characterization and analysis of the dmrt genes in large yellow croaker (Larimichthys crocea), one of the most commercially important marine fish in China, have not been described. In this study, we performed the first genome-wide systematic analysis of L. crocea dmrt genes through the bioinformatics method. A total of seven members of the Dmrt gene family including Lcdmrt1, Lcdmrt2a, Lcdmrt2b, Lcdmrt3, Lcdmrt4, Lcdmrt5, and Lcdmrt6 were excavated based on the genome data of L. crocea. Further analysis revealed that the dmrt genes of L. crocea were distributed unevenly across four chromosomes. There were three dmrt genes (Lcdmrt1, Lcdmrt2a, and Lcdmrt3) on 3rd chromosome, one (Lcdmrt6) on 13th chromosome, one (Lcdmrt4) on 14th chromosome, two on (Lcdmrt5 and Lcdmrt2b) 17th chromosome. The gene structure analysis indicated that the number of introns of different dmrt genes of L. crocea had some differences: Lcdmrt1 had four introns, Lcdmrt2a, Lcdmrt2b, and Lcdmrt6 had two introns, Lcdmrt3, Lcdmrt4, and Lcdmrt5 had only one intron. The expression pattern analysis with published gonad transcriptome datasets and further confirmed by qRT-PCR revealed that these members of the Dmrt gene family except for Lcdmrt4 were all sexually dimorphic and preferred expressing in testis. Furthermore, the expression pattern analysis also revealed that the expression level of Lcdmrt1 and Lcdmrt6 was significantly higher than that of other members, suggesting that these two genes may play a more important role in testis. Overall, our studies provide a comprehensive insight into the Dmrt gene family members and a basis for the further study of their biological functions in L. crocea.