Functional identification of ToLAAO genes and polymorphism association analysis of Cryptocaryon irritans resistance in Trachinotus ovatus

Abstract

‘Marine white spot disease’ is caused by Cryptocaryon irritans infection and can lead to high mortality in Trachinotus ovatus. L-Amino acid oxides (LAAOs) play a key role in antibacterial activity and parasitic activity. To investigate the function of the LAAO (ToLAAO) and LAAO-like (ToLAAO-like) genes of T. ovatus, this study explored the sequence characteristics and relationship between polymorphisms and traits of anti-C. irritans. The ToLAAO and ToLAAO-like ORF sequences obtained from the whole genome of T. ovatus were 1563 and 1584 bp, which encoded 520 and 527 amino acids respectively. Both sequences contained a highly conserved flavin adenine dinucleotide-binding domain and a similar amino oxidase domain. Sequence multiple alignment analysis showed that ToLAAO and ToLAAO-like had the highest homology to the LAAO sequence of Larimichthys crocea. Quantitative real-time polymerase chain reaction (qRT-PCR) results showed that ToLAAO and ToLAAO-like mRNA were generally expressed in 10 tissues. ToLAAO mRNA was highly expressed in the testis, while ToLAAO-like mRNA was highly expressed in muscle tissue. After C. irritans infection, ToLAAO and ToLAAO-like mRNA were significantly upregulated in the skin and spleen, while only ToLAAO mRNA was significantly upregulated in the liver and head kidney, and only ToLAAO-like mRNA was significantly upregulated in the gills. Five SNP sites were identified from the ToLAAO and ToLAAO-like genomic sequence fragments, and two sites (6200C/T and 6237G/A) of LAAO were significantly associated with resistance to C. irritans. These results suggest that ToLAAO and ToLAAO-like genes play crucial roles in defending against the immune response to C. irritans.