Chromosome-Level Genome Assembly and Comparative Genomic Analysis of Planiliza haematocheilus: Insights into Environmental Adaptation and Hypoxia Tolerance Mechanisms.

Planiliza haematocheilus, a teleostan species noted for its ecological adaptability and economic significance, thrives in both freshwater and marine environments. This study presents a novel chromosome-level genome assembly through Hi-C, PacBio CCS, and Illumina sequencing methods. The assembled genome has a final size of 651.58 Mb, with 24 chromosomes anchoring 91.94% of contigs. Contig N50 and scaffold N50 are respectively measured at 25.52 Mb and 28.59 Mb. Of the 22,476 protein-coding genes identified in the genome, 21,834 have functional annotations. BUSCO (Benchmarking Universal Single-Copy Orthologs) genome and gene annotation assessments yielded scores of 96% and 96.6%, respectively. The genome of P. haematocheilus revealed 228 expanded and 1433 contracted gene families. Comparative genomic analyses highlight adaptations and hypoxia tolerance, linked to protein synthesis, immune response, and metabolic regulation. The high-quality genome assembly supports advanced studies on gene expression patterns under different environmental stressors, contributing to genetic enhancement efforts for this economically important aquaculture species.