The complete mitochondrial genome of Montiporavietnamensis (Scleractinia, Acroporidae)

Abstract Montiporavietnamensis Veron, 2000 (Cnidaria, Anthozoa, Scleractinia, Acroporidae) is an uncommon, but distinctive species of stony coral. The complete mitochondrial genome of M.vietnamensis was sequenced in this study for the first time, based on 32 pairs of primers newly designed according to seven species in the family Acroporidae. The mitogenome of M.vietnamensis has a circular form and is 17,885 bp long, including 13 protein-coding genes (PCGs), 2 tRNA (tRNAMet, tRNATrp), 2 rRNA genes and a putative control-region. The base composition of the complete mitogenome was 24.8% A, 14.2% C, 24.2% G and 36.8% T, with a higher AT content (61.6%) than GC content (38.4%). Based on 13 protein-coding genes, a Maximum Likelihood phylogenetic analysis showed that M.vietnamensis is clustered in the genus Montipora which belongs to the family Acroporidae. More stony coral species should be sequenced for basic molecular information and to help confirm the taxonomic status and evolutionary relationships of Scleractinia in the future.


Introduction
Reef-building coral species of the order Scleractinia play an important role in shallow tropical seas by providing an environmental foundation for the ecosystem (Fukami et al. 2000, Sheppard et al. 2017. While traditional morphology-based systematics cannot clearly reflect all the evolutionary relationships of Scleractinia, molecular data have become increasingly important in recent years to help overcome the limitations of morphological analyses amongst scleractinians . Cnidarian mitogenome data contain important phylogenetic information for understanding its evolutionary history (Kayal et al. 2013). The utility of integrating morphological and genetic datasets also facilitates the taxonomic revisions of scleractinian taxa (Juszkiewicz et al. 2022). There are more than 1600 Scleractinia species, whereas only approximately 100 complete mitogenomes of Scleractinia species are currently available in NCBI (https:// www.ncbi.nlm.nih.gov/) (Hoeksema and Cairns 2022).
Montipora vietnamensis Veron, 2000 (Cnidaria, Anthozoa, Scleractinia, Acroporidae) is a species of stony coral, which is uncommon, but distinctive and usually inhabits shallow reef environments and rocky foreshores. Its colonies have an encrusting or laminar base, with closely compacted short upright branches; their coenosteum ridges are mostly vertical, but may be irregular; their corallites are large and prominent and their colours are dark brown, usually with white coenosteum ridges and branch tips (Veron 2000).
In this research, the complete mitochondrial genome of M. vietnamensis was sequenced for the first time, based on 32 pairs of primers designed according to seven species in the family Acroporidae. The phylogenetic position of M. vietnamensis within the family Acroporidae, based on protein coding genes of the mitogenome, will help determine its taxonomic status and facilitate further study on stony coral evolutionary and phylogenetic relationships (Tian et al. 2022). Ultimately, this information can aid in species monitoring and conservation efforts (Colin et al. 2021).

Material and methods
Two samples of M. vietnamensis (Fig. 1) were collected from Houhai, Sanya, Hainan Province, China (109°44' 55.91"E, 18°16' 28.58" N); one of them was immediately placed in a single vial in ethanol (+99%) and labelled with a unique identifier E38. This sample was then stored at -20°C until extraction. The other one was bleached by soaking in 5% sodium hypochlorite and then the specimen was kept in our Coral Sample Repository with a special code, 20181124-E38 (contact the first author to view or loan this specimen). Species identification was conducted according to the photographs and description of Veron (2000) ( http://www.coralsoftheworld.org/species_factsheets/species_factsheet_ summary/montipora-vietnamensis/). Complete genomic DNA (gDNA) was extracted using the DNeasy Blood and Tissue Kit (Qiagen, Shanghai, China), following the protocol at https://www.qiagen.com/cn/resources/resourcedetail?id=68f29296-5a9f-40fa-8b3d-1c148d 0b3030&lang=en. Electrophoresis with 1% agarose gel was used to estimate the integrity of the gDNA and the spectrophotometer NanoDrop 2000 (Thermo Scientific, USA) was used to measure the gDNA concentration.
Total of 32 pairs of primers designed, based on seven Acroporidae species.
The complete mitochondrial genome of Montipora vietnamensis (Scleractinia, ... The phylogenetic position of M. vietnamensis within the family Acroporidae was inferred using 13 tandem mitogenome PCG sequences, with 19 of the other 21 species of Scleractinia analysed in this study obtained from GenBank (https://www.ncbi.nlm.nih.gov/ genbank/, Table 2). Two other species, Acropora digitifera (GenBank accession number: OP311587) and Acropora hyacinthus (GenBank accession number: OP311657), were sequenced using the same primers as M. vietnamensis. We used MEGA 7 (Kumar et al. 2016) to select the best-fitting model, based on the Akaike Information Criterion (AIC) and then constructed a Maximum Likelihood (ML) tree with 500 bootstrap replicates.

Results and Discussion
The mitochondrial genome size of M. vietnamensis (GenBank accession number: ON872180, https://www.ncbi.nlm.nih.gov/nucleotide) was 17,885 bp, including 13 PCGs, 2 tRNA (tRNAMet, tRNATrp), 2 rRNA genes and a putative control-region (Fig. 2, Table 3). The mitogenome of M. vietnamensis offered no distinct structure and its gene order was the same as those of published mitogenomes of Acroporidae species, with all genes The ML bootstrap consensus tree shows that M. vietnamensis is clustered in the genus Montipora which belongs to the family Acroporidae with high bootstrap support (Fig. 3).  Table 4.
Nucleotide composition features in M. vietnamensis.

Figure 2.
The mitochondrial genome of M. vietnamensis. Gene order and positions are shown. COI, COII and COIII refer to the cytochrome oxidase subunits, Cyt b refers to cytochrome b and ND1-ND6 refers to NADH dehydrogenase components. All genes are encoded on the Hstrand.
The mitochondrial genome data have provided important molecular information for understanding evolutionary relationships amongst stony corals (Kitahara et al. 2016, Arrigoni et al. 2020. In this research, the 32 pairs of primers we designed according to seven Acroporidae species comprised a useful tool to obtain the mitogenome of M. vietnamensis. With the same primer sets, we further obtained four mitogenomes of other Acroporidae species, Acropora digitifera (GenBank accession number: OP311587), Acropora hyacinthus (GenBank accession number: OP311657), Acropora intermedia (GenBank accession number: OP311588) and Acropora microphthalma (GenBank accession number: OP311656). These showed 99.82%, 99.99%, 99.79% and 99.98% sequence identity with conspecifics already sequenced and available in GenBank that were obtained by next-generation sequencing (NGS). The NGS method was convenient, fast and relatively accurate. However, it cost less and was more time-efficient when we sequenced these five samples using the current Sanger sequencing approach. More stony coral species should be sequenced for basic molecular information and to help confirm the taxonomic status and evolutionary relationships of Scleractinia in the future. Inferred phylogenetic relationships, based on a Maximum-Likelihood analysis of concatenated nucleotide sequences of 13 mitochondrial PCGs. Numbers on branches are bootstrap percentages.