Characterization of the complete mitochondrial DNA sequence of the Lagocephalus gloveri (Tetraodontidae, Tetraodontiformes)

Abstract

The complete mitochondrial genome of Lagocephalus gloveri is reported in the present study, which is 16,446 bp in length. It consists of 13 protein-coding genes, two ribosomal RNA genes, 22 transfer RNA genes and a non-coding control region. The overall base composition of the genome is 27.58% for A, 25.07% for T, 30.83% for C and 16.52% for G. The phylogenetic tree, which is based on 12 protein coding gene sequences, suggested that L. gloveri was closest to L. lagocephalus. This study could give impetus to studies focused on population structure and molecular evolution of L. gloveri.

Keywords:

• Complete mitochondria genome
• Lagocephalus gloveri
• Tetraodontidae
• phylogenetic analysis

Lagocephalus gloveri (Clarke 1897), a senior synonym of Lagocephalus cheesemanii (Matsuura and Satoh 2017), belonged to the family Tetraodontidae, subfamily Tetraodontinae. This species was distributed in the Indo-West Pacific, from Japan to South China Sea (Abe and Tabeta 1983). The complete mitochondrial genome of L. gloveri was reported and characterized herein, which we hope to provide significant information for further studies on its taxonomy and population genetics.

The sample of L. gloveri was collected from Baimajing dock, Zhanzhou city, Hainan province, China. DNA materials were extracted from muscle tissues using the TIANamp Marine Animals DNA Kit (TIANGEN Biotech, Beijing, China). The complete mitochondrial genome was obtained through de novo assembly of 1.2 Gb Illumina Hiseq data in PE150 mode.

The mitochondrial genome DNA of L. gloveri was a circular molecular of 16,446 bp in length with a predicted control region of 823 bp in length. In addition, this genome contains 13 protein coding genes (PCGs), 22 transfer RNA (tRNAs), and two ribosomal RNA (rRNAs). Among the 37 genes, 28 were encoded by heavy strand, and the other 9 were encoded by light strand, which were similar with other teleosts. The gene arrangement of the mitogenome was the same with other species in genus Lagocephalus (Jiang et al. 2018; Xu et al. 2019). The nucleotide composition is 27.58% for A, 25.07% for T, 30.83% for C and 16.52% for G.

To examine the phylogenetic status of L. gloveri, 12 protein coding genes except for ND6 of 13 Tetraodontidae species and one Benthosema pterotum as the outgroup, were aligned by the MAFFT version 7 software (Katoh and Standley 2013) (Figure 1). Phylogenetic analysis was conducted based on maximum likelihood (ML) analyses implemented in IQ-TREE 1.5.5 (Nguyen et al., 2015) under the default model. Support for the inferred ML tree was inferred by bootstrapping with 1000 replicates. It revealed that L. gloveri had the closest relationship with L. lagocephalus.

Figure 1. Phylogenetic relationships among 13 Tetraodontidae species and one Benthosema pterotum as the outgroup based on 12 PCGs. Bootstrap support values are given at the nodes. Mitochondrial genome accession number used in this phylogeny analysis: Lagocephalus sceleratus MH550879.1; L. lunaris GQ461750.1; L. lagocephalus AP011933.1; L. spadiceus NC_026194.2; L. suezensis NC_026229.1; L. inermis NC_029376.1; L. wheeleri AP009538.1; L. laevigatus NC_015345.1; Takifugu fasciatus NC_032400.1; Sphoeroides pachygaster AP006745.1; Torquigener brevipennis AP009537.1; Canthigaster rivulata AP006744.1; Benthosema pterotum NC_047480.1.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Data availability statement

The data that support the findings of this study are openly available in GenBank of NCBI at https://www.ncbi.nlm.nih.gov, reference number MT903226.

Additional information

Funding

This work was supported by Project NO.2015M05 supported by special research fund for the national nonprofit institutes, East China Sea Fisheries Research Institute.