The complete chloroplast genome of Grateloupia turuturu Yamada

Abstract In this study, we sequenced and annotated the complete chloroplast genome of Grateloupia turuturu Yamada (GenBank accession number: MN853877). The total length of the chloroplast genome is 188,547 bps, including 196 protein-encoding genes, 23 tRNA genes and 3 rRNA. The complete chloroplast genome of G. turuturu is 30.68% C + G, which is lower than that of A + T. The phylogenetic tree, which is based on core genes, shows that G. turuturu is clustered into the Grateloupia clade and has close genetic relationships with algae Grateloupia filicina and Grateloupia taiwanensis. These data will provide more information to understand the phylogenetic status of G. turuturu.

G. turuturu belongs to the phylum Rhodophyta, class Florideophyceae, order Halymeniales, family Halymeniaceae, and the genus Grateloupia. It mainly grows on rocks or in tide pools in the low tidal zone and is widely distributed along the coast of China, especially in the Yellow and Bohai Seas (Xia 2004). G. turuturu is rich in proteins, carbohydrates, vitamins and other minerals making it a subsidiary food (Fujiwara-Arasaki et al. 1984;Rui et al. 2006). G. turuturu has antiviral and anti-tumor activities, which makes it potentially interesting for pharmaceutical and medical developments (Simon-Colin et al. 2002;Hellio et al. 2004). In addition, G. turuturu could also be the raw material for agar or carrageenan (Shanmugam and Mody 2000;Fu et al. 2011).
G. turuturu was collected from the Qinhunangdao coastal area (39 49 0 54.69 00 N, 119 31 0 30.50 00 E) and cultured in the laboratory with VSE medium at 20 C under a light intensity of 100 lmol À2 s À1 (Zhou et al. 2016a(Zhou et al. , 2016b. The specimens were preserved at the Marine Ecology Research Center of the First Institute Oceanography, Ministry of Natural Resources in Qingdao (Accession number: DXWGZ06). Approximately 5 g of fresh algae was harvested for cpDNA isolation using an improved extraction method (Chen et al. 2011). After DNA isolation, 1 lg of purified DNA was fragmented to construct short-insert libraries (insert size of 430 bps) according to the manufacturer's instructions (Illumina), and then sequenced on the Illumina Hiseq 4000 (Borgstrom et al. 2011) at Shanghai BIOZERON Co., Ltd. Prior to assembly, the Illumina raw reads were filtered. The chloroplast genome of G. turuturu was reconstructed using a combination of the Pacbio Sequel data and the Illumina Hiseq data via SPAdes v3.10.1 (Antipov et al. 2016).
To determine the phylogenetic position of G. turuturu, 24 other complete chloroplast genome sequences were obtained from the Genebank database. A phylogenetic tree was constructed based on core genes. Maximum likelihood (ML) methods were performed for the phylogenetic analysis using PhyML 3.0, and the bootstrap was 1000. The phylogenetic tree (Figure 1) shows that G. turuturu clustered into the Grateloupia clade and has close genetic relationships with algae Grateloupia filicina and Grateloupia taiwanensis.

Disclosure statement
We declare that we have no conflicts of interest. The authors alone are responsible for the content and writing of the paper.

Funding
This work was financially supported by the National Key R&D Program of China [2019YFC1407902], National Natural Science Foundation of China [41876140/41606190].The funders did not play a role in the study design, data collection and analysis, decision to publish, or manuscript preparation.