Abstract
BackgroundThe detection of signatures of selection in genomic regions provides insights into the evolutionary process, enabling discoveries regarding complex phenotypic traits. In this research, we focused on identifying genomic regions affected by different selection pressures, mainly highlighting the recent positive selection, as well as understanding the candidate genes and functional pathways associated with the signatures of selection in the Mangalarga Marchador genome. Besides, we seek to direct the discussion about genes and traits of importance in this breed, especially traits related to the type and quality of gait, temperament, conformation, and locomotor system.ResultsThree different methods were used to search for signals of selection: Tajima’s D (TD), the integrated haplotype score (iHS), and runs of homozygosity (ROH). The samples were composed of males (n = 62) and females (n = 130) that were initially chosen considering well-defined phenotypes for gait: picada (n = 86) and batida (n = 106). All horses were genotyped using a 670 k Axiom® Equine Genotyping Array (Axiom MNEC670). In total, 27, 104 (chosen), and 38 candidate genes were observed within the signatures of selection identified in TD, iHS, and ROH analyses, respectively. The genes are acting in essential biological processes. The enrichment analysis highlighted the following functions: anterior/posterior pattern for the set of genes (GLI3, HOXC9, HOXC6, HOXC5, HOXC4, HOXC13, HOXC11, and HOXC10); limb morphogenesis, skeletal system, proximal/distal pattern formation, JUN kinase activity (CCL19 and MAP3K6); and muscle stretch response (MAPK14). Other candidate genes were associated with energy metabolism, bronchodilator response, NADH regeneration, reproduction, keratinization, and the immunological system.ConclusionsOur findings revealed evidence of signatures of selection in the MM breed that encompass genes acting on athletic performance, limb development, and energy to muscle activity, with the particular involvement of the HOX family genes. The genome of MM is marked by recent positive selection. However, Tajima’s D and iHS results point also to the presence of balancing selection in specific regions of the genome.
Highlights
The detection of signatures of selection in genomic regions provides insights into the evolutionary process, enabling discoveries regarding complex phenotypic traits
The “batida” and “picada” gait types are the main trait of the Mangalarga Marchador horse (MM), representing the unique natural movement allowed in intermediate speeds [1]
DMRT3 appears to be important for gaits in certain breeds, other genes are certainly involved in the expression of this trait
Summary
The detection of signatures of selection in genomic regions provides insights into the evolutionary process, enabling discoveries regarding complex phenotypic traits. The “batida” and “picada” gait types are the main trait of the Mangalarga Marchador horse (MM), representing the unique natural movement allowed in intermediate speeds [1]. The main difference between batida and picada gaits is how the movement is executed, being the diagonal support more frequent than the triple support in the batida gait. The lateral and triple supports overlap, providing a softer execution to the movement. This difference in movement characterizes the main phenotypic segregation in MM horses [2, 3], and because of this, gait is prioritized in studies involving this breed. DMRT3 appears to be important for gaits in certain breeds, other genes are certainly involved in the expression of this trait
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