Chromosome-level genome assembly of the East Asian common octopus (Octopus sinensis) using PacBio sequencing and Hi-C technology.

The Cephalopoda are a group of highly diverse marine species in the phylum Mollusca, which are distributed worldwide. They have evolved some vertebrate-like biological traits and exhibit complicated behavioural repertoires. Thus, they are interesting species for studying the mechanisms of evolutionary convergence, innovational functional structures and evolutionary adaptation to a highly active, predatory lifestyle in diverse marine environments. Despite the evolutionary placement and biological significance of cephalopods, genomic data on these organisms remain limited. Here, we assembled a chromosome-level genome of a female East Asian common octopus (Octopus sinensis) by combining Pacific Bioscience (PacBio) single-molecule real-time sequencing, Illumina paired-end sequencing and Hi-C technology. An O. sinensis genome of 2.72 Gb was assembled from a total of 245.01 Gb high-quality PacBio sequences. The assembled genome represents 80.2% completeness (BUSCO) with a contig N50 of 490.36 Kb and a scaffold N50 of 105.89 Mb, showing a considerable improvement compared with other sequenced cephalopod genomes. Hi-C scaffolding of the genome resulted in the construction of 30 pseudochromosomes in Cephalopoda, representing 96.41% of the assembled sequences. The genome contained 42.26% repeat sequences and 5,245 noncoding RNAs. A total of 31,676 protein-coding genes were predicted, of which 82.73% were functionally annotated. The comparative genomic analysis identified 17,020 orthologous gene families, including 819 unique gene families and 629 expanded gene families. This genomic information will be an important molecular resource for further investigation of biological function and evolutionary adaptations in octopuses, and facilitate research into their population genetics and comparative evolution.

Chromosome-level genome assembly of the greenfin horse-faced filefish (Thamnaconus septentrionalis) using Oxford Nanopore PromethION sequencing and Hi-C technology.

The greenfin horse-faced filefish, Thamnaconus septentrionalis, is a valuable commercial fish species that is widely distributed in the Indo-West Pacific Ocean. This fish has characteristic blue-green fins, rough skin and a spine-like first dorsal fin. Thamnaconus septentrionalis is of conservation concern because its population has declined sharply, and it is an important marine aquaculture fish species in China. Genomic resources for the filefish are lacking, and no reference genome has been released. In this study, the first chromosome-level genome of T. septentrionalis was constructed using nanopore sequencing and Hi-C technology. A total of 50.95 Gb polished nanopore sequences were generated and were assembled into a 474.31-Mb genome, accounting for 96.45% of the estimated genome size of this filefish. The assembled genome contained only 242 contigs, and the achieved contig N50 was 22.46 Mb, a surprisingly high value among all sequenced fish species. Hi-C scaffolding of the genome resulted in 20 pseudochromosomes containing 99.44% of the total assembled sequences. The genome contained 67.35 Mb of repeat sequences, accounting for 14.2% of the assembly. A total of 22,067 protein-coding genes were predicted, 94.82% of which were successfully annotated with putative functions. Furthermore, a phylogenetic tree was constructed using 1,872 single-copy orthologous genes, and 67 unique gene families were identified in the filefish genome. This high-quality assembled genome will be a valuable resource for a range of future genomic, conservation and breeding studies of T. septentrionalis.

Sequence and phylogenetic analysis of the mitochondrial genome for the Wolf-eel, Anarrhichthys ocellatus (Anarhichadidae: Perciformes).

The first complete mitochondrial genome of the wolf-eel (Anarrhichthys ocellatus) was determined and analyzed in this work. It had a circular mapping molecular with the length of 16,506 bp and contained 12S and 16S rRNAs, 22 tRNAs, 13 protein-coding genes, and a 851 bp D-loop in the typical arrangement of the vertebrate consensus. Phylogenetic analysis of the mitochondrial genome sequences of 47 representative species within the order Perciformes suggests that A. ocellatus is closely related to the species in the family Anarhichadidae. Anarrhichthys ocellatus mitogenome can contribute to our understanding of the phylogeny and evolution of this species.