The complete mitochondrial genome of Pink warty sea cucumber (Cercodemas anceps Selenka, 1867)

Abstract In this study, we sequenced the circular mitochondrial genome (mitogenome) of Cercodemas anceps. This genome was determined to measure 16,539 bp in length and contain 13 protein-coding genes (PCGs), 22 tRNA genes, and 2 rRNA genes. The longest gene was observed to be nad5, which measures 1,641 bp in length and is located at position 6,540 ∼ 8,180 of the C. anceps mitogenome. One PCG, nad6, and five tRNA genes (tRNASer(UCN), tRNAGln, tRNAAla, tRNAVal, and tRNAAsp) were located on the light chain, and the other genes were located on the heavy chain. A phylogenetic tree was constructed with the mitogenome sequences of 26 types of echinoderm species, and the results show that C. anceps is most closely related to C. quadrangularis.


Mitochondrial genome; Holothuroidea; Cercodemas anceps; phylogenetic analysis
Sea cucumbers play important roles in maintaining healthy coral reef ecosystems (Birkeland 1989;Schneider et al. 2011;Huang et al. 2018). Cercodemas anceps (Cucumariidae) primarily grows in the coastal shallow waters of the South China Sea (Liao 1997). Live C. anceps exhibits bright yellow and red colors (Lane et al. 2000), which causes this species to be a prime target for recreational fisheries in China. Li (a local fisherman in Sanya city, Hainan Province, China) stated that the average price (in 2019) of each live Pink warty sea cucumber was approximately US$8.
The highly conservative pattern of the mitochondrial genome (mitogenome) and its rapid rate of evolution makes the mitogenome an ideal tool for studying evolution and molecular ecology (Yoon et al. 2006;Verbruggen et al. 2010;Janou skovec et al. 2013), and this genome is generally considered as to be a useful molecular marker for phylogenetic analyses and species identification (Byrne et al. 2010;Zhang et al. 2015).
In the present study, C. anceps was obtained from Sanya Cape (N18 2021 0 , E109 4708 0 ), Sanya city, Hainan Province, China. Total DNA was extracted with the TIANamp Marine Animal DNA Kit (TIANGEN, Beijing, China) and stored with the sample ID GDAAS-IAS-AQUA-CA-202006125 at Guangdong Academy of Agricultural Sciences (Guangzhou, China). Libraries with average lengths of 350 bp were con-structed using the NexteraXT DNA Library Preparation Kit (Illumina, Shanghai, China) and sequenced on an Illumina HiSeq 4000 sequencing platform (paired-end 150-bp reads were generated) at Shenzhen Huitong Biotechnology Co. Ltd, China. Raw sequence reads were edited using the NGS QC Tool Kit v2.3.3 and assembled into contigs using the de novo assembler SPAdes 3.11.0 (Dmitry et al. 2016), and the complete mitogenome was deposited on the NCBI website (https://www.ncbi.nlm.nih.gov/genbank/) with the accession number MW044622.1. In total, 15 reported sea cucumber species were selected, and the phylogenetic relationships were reconstructed with the protein-coding genes by means of maximum-likelihood (ML) (GTR þ G þ I model) analysis using MEGA-X software (Kumar et al. 2018) with 1000 replicates. Ten types of other echinoderm mitogenome sequences were utilized as outgroups.
The mitogenome of C. anceps was determined to be 16,539 bp long (41.86% A, 27.74% T, 18.74% C, and 11.66% G) and to include a set of 22 tRNA genes, 13 protein-coding genes (PCGs), and 2 rRNA genes. nad5 was observed to be the longest gene, measuring 1641 bp in length, and it was located at position 6540-8180 of the C. anceps mitogenome. The lengths of the tRNA genes ranged from 65 bp to 74 bp, and PCGs ranged from 159 bp to 1641 bp. One PCG (nad6) and five tRNA genes (tRNA Ser(UCN) , tRNA Gln , tRNA Ala , tRNA Val , and tRNA Asp ) were located on the light chain, and the other genes were located on the heavy chain.
A phylogenetic analysis showed that C. anceps is most closely related to C. quadrangularis, and other Cucumariidae species (Cucumaria miniata, Pseudocolochirus violaceus, and Colochirus quadrangularis) (Figure 1). The results of this investigation of the C. anceps mitogenome contributes to the growing data on holothuroid mitogenomes and provides useful information for phylogenetic and evolutionary studies in the selected sea cucumber species.

Disclosure statement
No potential competing interest was reported by the authors.