Investigating the influence of the SIRT6 gene and alternative splicing on canine longevity: an in-depth bioinformatics analysis and experimental confirmation via NGS-based targeted sequencing.

Sirtuin 6 (SIRT6) has many functions, but its most notable contribution lies in the intricate regulation of cell senescence and lifespan. The effect of the SIRT6 gene on body size and longevity in dogs has not been extensively studied, particularly with regard to alternative splicing mechanisms. To address this gap, the present study used a comprehensive approach that integrated bioinformatics analysis, DNA sequence analysis, and next-generation sequencing-based targeted sequencing analyses. Our results show that, according to the reference genomes of different dog breeds, the canine SIRT6 gene exhibits different variants according to the dog breed. Except for the exonic variant g.55,146,051C > T (rs851065050) detected in the Boxer breed, all variants obtained from other genomes were determined to be intronic variants. The g.56,075,604 G > T (rs3343377774) intronic variant previously detected in the Labrador Retriever breed was only detected in the small breed group in our study. As a result of in silico analysis, the g.56,075,604 G > T variant has an exonic splicing enhancer (ESE) site; this variant has created the motif of the binding site for the splicing factor ESE_SRp55. The g.55.146,051C > T variant was associated with a change in the ratio of exonic splicing silencer/ESE binding motifs. This change indicates an increased probability of exon skipping for the mutant allele. Thus, as with the intronic variant g.56,075,604 G > T, the mis-splicing induced by the exonic variant g.55,146,051C > T could potentially be associated with an altered distribution of regulatory splicing factors of the canine SIRT6 gene.