Genomic association using principal components of morphometric traits in horses: identification of genes related to bone growth

Genomic association using principal components of morphometric traits in horses: identification of genes related to bone growth

The measurement of morphometric traits in horses is important for determining breed qualification and is one of the main selection criteria for the species. The development of an index (HPC) that consists of principal components weighted by additive genetic values allows to explore the most relevant...

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Bibliographic Details
Published in:Animal biotechnology Vol. 34; no. 9; pp. 4921 - 4926
Main Authors: Bastos, Marisa Silva, Solar Diaz, Iara del Pilar, Alves, Jackeline Santos, de Oliveira, Louise Sarmento Martins, de Araújo de Oliveira, Chiara Albano, de Godói, Fernanda Nascimento, de Camargo, Gregório Miguel Ferreira, Costa, Raphael Bermal
Format: Journal Article
Language:English
Published: England Taylor & Francis 11-12-2023
Taylor & Francis Ltd
Subjects:
Bone growth
Campolina
Collagen (type IX)
Conformation
Genes
Genetic diversity
Genetic variance
Genome-wide association studies
Genomics
Horses
linear measurements
morphometry
SNP
Variance
wither height
Campolina
morphometry
linear measurements
SNP
wither height
Conformation
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Summary:The measurement of morphometric traits in horses is important for determining breed qualification and is one of the main selection criteria for the species. The development of an index (HPC) that consists of principal components weighted by additive genetic values allows to explore the most relevant relationships using a reduced number of variables that explain the greatest amount of variation in the data. Genome-wide association studies (GWAS) using HPC are a relatively new approach that permits to identify regions related to a set of traits. The aim of this study was to perform GWAS using HPC for 15 linear measurements as the explanatory variable in order to identify associated genomic regions and to elucidate the biological mechanisms linked to this index in Campolina horses. For GWAS, weighted single-step GBLUP was applied to HPC. The eight genomic windows that explained the highest proportion of additive genetic variance were identified. The sum of the additive variance explained by the eight windows was 95.89%. Genes involved in bone and cartilage development were identified (SPRY2, COL9A2, MIR30C, HEYL, BMP8B, LTBP1, FAM98A, and CRIM1). They represent potential positional candidates for the HPC of the linear measurements evaluated. The HPC is an efficient alternative to reduce the 15 usually measured traits in Campolina horses. Moreover, candidate genes inserted in region that explained high additive variance of the HPC were identified and might be fine-mapped for searching putative mutation/markers.
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ISSN:1049-5398
1532-2378
DOI:10.1080/10495398.2023.2209795