The complete mitochondrial genome of the hydrozoan jellyfish Turritopsis lata Lendenfeld, 1885 (Cnidaria; Hydrozoa; Anthoathecata) with molecular phylogenetic analysis

Abstract In this study, we sequenced and analyzed the complete mitochondrial genome (mtgenome) of the hydrozoan jellyfish Turritopsis lata. The mtgenome was a complete linear form (15,047 bp in length, 30.9% A, 42.1% T, 12.5% C, and 14.5% G), including 13 protein coding genes (PCGs) (cox1, cox2, cox3, atp6, atp8, nad1, nad2, nad3, nad4, nad4L, nad5, nad6, and cytb), 2 tRNAs (tRNAMet and tRNATrp), and 2 rRNAs (12S and 16S rRNA). The genome structure of the T. lata was completely identical to those of other species within the subclass Hydroidolina. In addition, our molecular phylogenetic analysis using 13 PCGs within hydrozoans showed that T. lata was the closest to Turritopsis dohrnii.

The hydrozoan jellyfish Turritopsis are well-known to revert their life cycle to the juvenile polyp stage from adult medusae by rejuvaniation, and, thus, they are called 'immortal jellyfish' (Hasegawa et al. 2016). The jellyfishes are recorded worldwide from tropical to temperate waters (Miglietta et al. 2007), and their distribution patterns are region-specific depending on species (Miglietta et al. 2019). Although they are classified by morphology, their identification is difficult due to similar morphology among relatives (Kubota 2015). Alternatively, molecular analysis has been considered as a powerful tool to determine their taxonomic identities , and mitochondrial genes and genomes are commonly used as molecular markers of taxonomy (Yuan et al. 2016;Hashemi-Aghdam et al. 2017). To date, six Turritopsis species have been recorded in the public database (WoRMS 2021); of them, a mtgenome sequence was revealed only in Turritopsis dohrnii (KT020766). Additional molecular data are required for more accurate phylogenetic analysis of their taxa (Miglietta et al. 2007). In the present study, we report the mtgenome sequence and structure of Turritopsis lata Lendenfeld, 1885 (Cnidaria; Hydrozoa) with description of phylogenetic relationships within hydrozoans.
The phylogenetic relationship within hydrozoans was inferred using amino acid sequences of 13 PCGs (Figure 1). The ML tree showed that the T. lata formed a sister relationship with T. dohrnii. In the present study, we provide additional complete mtgenome sequence data of T. lata to understand the abstruse phylogenetic relationship of hydrozoans.

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

Funding
This research was a part of the project titled 'Improvement of management strategies on marine disturbing ecosystems and harmful organisms (No. 20190518

Data availability statement
The genome sequence data that support the findings of this study are openly available in GenBank of NCBI at https://www.ncbi.nlm.nih.gov under the Accession no. MW399220. Figure 1. Molecular phylogenetic relationship of Hydrozoa. Two scyphozoans (Nemopilema nomurai and Aurelia coerulea) were included as the out-group. The maximum-likelihood (ML) phylogeny tree (JTT matrix-based model) was generated with the concatenated amino acid sequences of 13 mitochondrial PCGs. The percentage of replication value of bootstrap test (1000 replications) are shown above the branches. A black dot represents Turritopsis lata determined in this study.