A genome assembly and annotation for the Australian alpine skink Bassiana duperreyi using long-read technologies.

Hanrahan BJ, Alreja K, Reis ALM, Chang JK, Dissanayake DSB, Edwards RJ, Bertozzi T, Hammond JM, O’Meally D, Deveson IW, Georges A, Waters P & Patel HR (accepted): A genome assembly and annotation for the Australian alpine skink Bassiana duperreyi using long-read technologies. G3 jkaf046, DOI: 10.1093/g3journal/jkaf046 [G3] [PubMed]

Abstract

The eastern three-lined skink (Bassiana duperreyi) inhabits the Australian high country in the southeast of the continent including Tasmania. It is a distinctive oviparous species because it undergoes sex reversal (from XX genotypic females to phenotypic males) at low incubation temperatures. We present a chromosome-scale genome assembly of a Bassiana duperreyi XY male individual, constructed using PacBio HiFi and ONT long reads scaffolded using Illumina HiC data. The genome assembly length is 1.57 Gbp with a scaffold N50 of 222 Mbp, N90 of 26 Mbp, 200 gaps and 43.10% GC content. Most (95%) of the assembly is scaffolded into 6 macrochromosomes, 8 microchromosomes and the X chromosome, corresponding to the karyotype. Fragmented Y chromosome scaffolds (n=11 > 1 Mbp) were identified using Y-specific contigs generated by genome subtraction. We identified two novel alpha-satellite repeats of 187 bp and 199 bp in the putative centromeres that did not form higher order repeats. The genome assembly exceeds the standard recommended by the Earth Biogenome Project; 0.02% false expansions, 99.63% kmer completeness, 94.66% complete single copy BUSCO genes and an average 98.42% of transcriptome data mappable to the genome assembly. The mitochondrial genome (17,506 bp) and the model rDNA repeat unit (15,154 bp) were assembled. The B. duperreyi genome assembly has high completeness for a skink and will provide a resource for research focused on sex determination and thermolabile sex reversal, as an oviparous foundation species for studies of the evolution of viviparity, and for other comparative genomics studies of the Scincidae.

Chromosome-level genome assembly of the spangled emperor, Lethrinus nebulosus (Forsskål 1775)

The first data note from the Ocean Genomes project is now out in Scientific Data - a first-in-family genome from the emperor breams.

Parata L, Anstiss L, de Jong E, Doran A, Edwards RJ, Newman SJ, Payet SD, Skepper CL, Wakefield CB, OceanOmics Centre, OceanOmics Division & Corrigan S (2025): Chromosome-level genome assembly of the spangled emperor, Lethrinus nebulosus (Forsskål 1775). Scientific Data 12:435. DOI: 10.1038/s41597-025-04690-w.

Abstract

Spangled emperor, Lethrinus nebulosus (Forsskål 1775), is a tropical marine fish of economic and cultural importance throughout the Indo-West Pacific. It is one of the most targeted recreational fishes in the Gascoyne Coast Bioregion of Western Australia where it serves as an indicator species for recreational fishing. Here, we present a highly accurate, near-gapless, chromosome-level, haplotype-phased reference genome assembly of L. nebulosus (Lethrinus nebulosus (Spangled Emperor) genome, fLetNeb1.1; PRJNA1074345), the first for the species and the first high-quality genome representative of the family Lethrinidae. The 1.09 Gb genome was assembled from PacBio HiFi and Dovetail Omni-C proximity ligation sequencing data. The contig N50 is 21–24 Mbp and BUSCO completeness greater than 99%. A preliminary gene annotation identified 24,583 genes with the predicted transcriptome achieving a BUSCO completeness score of 99.1%. This resource will facilitate genomic studies to inform the sustainable management of L. nebulosus and other Lethrinids.