QTL spanning the TGF-β2 locus is associated with muscle fiber hypertrophy in rainbow trout

BackgroundSkeletal muscle growth is a key determinant of body size and market value in salmonid aquaculture, yet the mechanisms linking genomic variation to muscle fiber hypertrophy remain poorly resolved. Myofiber cross-sectional area (CSA) provides a quantitative cellular proxy for fiber size and a direct link to macroscopic growth traits. MethodsWe performed histological phenotyping of white skeletal muscle from rainbow trout (Oncorhynchus mykiss) representing divergent fillet-yield selection lines (ARS-FY-H and ARS-FY-L), quantifying mean myofiber CSA and fiber number using high-throughput image analysis. Genome-wide association analysis (GWAS) was conducted using low-pass whole-genome sequencing ([~]1x) with genotype imputation and functional variant annotation. RNA sequencing was performed on fish representing high and low CSA extremes to identify differentially expressed genes and enriched biological pathways. ResultsMean myofiber CSA was significantly associated with body weight, muscle weight, visceral weight, and body length (p < 0.05), while fiber count showed no significant association with most growth traits, implicating hypertrophy as the primary driver of muscle mass variation. GWAS identified a significant QTL spanning [~]4.76 Mb on chromosome 2 (117 significant SNPs; Bonferroni-adjusted P [&le;] 0.05; {lambda} = 1.02). Associated variants were predominantly noncoding, enriched in intronic, intergenic, and enhancer-annotated regions. A high density of SNPs colocalized with the TGF-{beta}2 locus, overlapping strong and genic enhancer elements in white muscle. Transcriptomic comparisons revealed that high-CSA muscle showed elevated expression of genes related to contractile function, cytoskeletal organization, and translation, while low-CSA muscle exhibited upregulation of extracellular matrix and immune-related genes consistent with a tissue remodeling state. ConclusionsNoncoding regulatory variation within a significant QTL spanning the TGF-{beta}2 locus is associated with distinct transcriptional programs linked to muscle fiber hypertrophy in rainbow trout. By integrating genetic variation, chromatin-state annotation, and transcriptomic profiling, this study identifies candidate regulatory loci associated with variation in muscle cellularity and growth-related phenotypes in rainbow trout.