MYO16 has previously been identified as a candidate gene in studies of meat productivity in sheep, but its complete sequence and the potential impact of polymorphisms on the functional properties of the gene in sheep remain understudied. The aim of this study was to analyze genetic variation in the MYO16 gene region in sheep and to identify polymorphisms that, according to bioinformatic prediction, are capable of changing the amino acid sequence of the protein or are associated with allele-specific differences in transcription factor binding motifs potentially significant for gene regulation or protein structure. Whole-genome sequencing was performed for genomic DNA from Manych Merino rams (n = 30) on an Illumina NovaSeq 6000 platform. Variants within the MYO16 region were extracted and annotated. For each variant, ±30 bp reference and alternative sequences were scanned with FIMO using the JASPAR 2020 Vertebrates PWMs to detect allele-specific gain or loss of significant motif hits. TFLink (Mus musculus) was used to retain only TFs with MYO16 listed as a target. In the MYO16 gene region, 10,318 variants were detected. The coding region contained 54 SNPs, including 15 missense variants. In silico TFBS scanning identified 23 variants showing allele-specific gain or loss of significant motif hits, involving motifs for EBF1, CTCF, NRF1, SPI1, NFE2L2, JUN, and GFI1. We examined polymorphism in the ovine MYO16 gene region and identified candidate variants to be tested for association with productivity traits in future genotype–phenotype studies.
Yatsyk et al. (Fri,) studied this question.