Your search keyword '"Sánchez-Molano, Enrique"' showing total 4 results

1. Genetic analysis of novel phenotypes for farm animal resilience to weather variability

Author

Sánchez-Molano, Enrique, Kapsona, Vanessa V., Ilska, Joanna J., Desire, Suzanne, Conington, Joanne, Mucha, Sebastian, and Banos, Georgios

Published

2019

2. Single-step genome-wide association analyses of claw horn lesions in Holstein cattle using linear and threshold models.

Author

Li, Bingjie, Barden, Matthew, Kapsona, Vanessa, Sánchez-Molano, Enrique, Anagnostopoulos, Alkiviadis, Griffiths, Bethany Eloise, Bedford, Cherril, Dai, Xiaoxia, Coffey, Mike, Psifidi, Androniki, Oikonomou, Georgios, and Banos, Georgios

Subjects

HOLSTEIN-Friesian cattle, GENOME-wide association studies, HERITABILITY, GENETIC correlations, LOCUS (Genetics), CATTLE genetics, HEALTH of cattle, CATTLE crossbreeding

Abstract

Background: Lameness in dairy cattle is primarily caused by foot lesions including the claw horn lesions (CHL) of sole haemorrhage (SH), sole ulcers (SU), and white line disease (WL). This study investigated the genetic architecture of the three CHL based on detailed animal phenotypes of CHL susceptibility and severity. Estimation of genetic parameters and breeding values, single-step genome-wide association analyses, and functional enrichment analyses were performed. Results: The studied traits were under genetic control with a low to moderate heritability. Heritability estimates of SH and SU susceptibility on the liability scale were 0.29 and 0.35, respectively. Heritability of SH and SU severity were 0.12 and 0.07, respectively. Heritability of WL was relatively lower, indicating stronger environmental influence on the presence and development of WL than the other two CHL. Genetic correlations between SH and SU were high (0.98 for lesion susceptibility and 0.59 for lesion severity), whereas genetic correlations of SH and SU with WL also tended to be positive. Candidate quantitative trait loci (QTL) were identified for all CHL, including some on Bos taurus chromosome (BTA) 3 and 18 with potential pleiotropic effects associated with multiple foot lesion traits. A genomic window of 0.65 Mb on BTA3 explained 0.41, 0.50, 0.38, and 0.49% of the genetic variance for SH susceptibility, SH severity, WL susceptibility, and WL severity, respectively. Another window on BTA18 explained 0.66, 0.41, and 0.70% of the genetic variance for SH susceptibility, SU susceptibility, and SU severity, respectively. The candidate genomic regions associated with CHL harbour annotated genes that are linked to immune system function and inflammation responses, lipid metabolism, calcium ion activities, and neuronal excitability. Conclusions: The studied CHL are complex traits with a polygenic mode of inheritance. Most traits exhibited genetic variation suggesting that animal resistance to CHL can be improved with breeding. The CHL traits were positively correlated, which will facilitate genetic improvement for resistance to CHL as a whole. Candidate genomic regions associated with lesion susceptibility and severity of SH, SU, and WL provide insights into a global profile of the genetic background underlying CHL and inform genetic improvement programmes aiming at enhancing foot health in dairy cattle. [ABSTRACT FROM AUTHOR]

Published

2023

3. Genomic regions underlying susceptibility to bovine tuberculosis in Holstein-Friesian cattle.

Author

Raphaka, Kethusegile, Matika, Oswald, Sánchez-Molano, Enrique, Mrode, Raphael, Coffey, Mike Peter, Riggio, Valentina, Glass, Elizabeth Janet, Woolliams, John Arthur, Bishop, Stephen Christopher, and Banos, Georgios

Subjects

TUBERCULOSIS in cattle, HOLSTEIN-Friesian cattle, HERITABILITY, CHROMOSOMES, DISEASE susceptibility

Abstract

Background: The significant social and economic loss as a result of bovine tuberculosis (bTB) presents a continuous challenge to cattle industries in the UK and worldwide. However, host genetic variation in cattle susceptibility to bTB provides an opportunity to select for resistant animals and further understand the genetic mechanisms underlying disease dynamics. Methods: The present study identified genomic regions associated with susceptibility to bTB using genome-wide association (GWA), regional heritability mapping (RHM) and chromosome association approaches. Phenotypes comprised de-regressed estimated breeding values of 804 Holstein-Friesian sires and pertained to three bTB indicator traits: i) positive reactors to the skin test with positive post-mortem examination results (phenotype 1); ii) positive reactors to the skin test regardless of post-mortem examination results (phenotype 2) and iii) as in (ii) plus non-reactors and inconclusive reactors to the skin tests with positive post-mortem examination results (phenotype 3). Genotypes based on the 50 K SNP DNA array were available and a total of 34,874 SNPs remained per animal after quality control. Results: The estimated polygenic heritability for susceptibility to bTB was 0.26, 0.37 and 0.34 for phenotypes 1, 2 and 3, respectively. GWA analysis identified a putative SNP on Bos taurus autosomes (BTA) 2 associated with phenotype 1, and another on BTA 23 associated with phenotype 2. Genomic regions encompassing these SNPs were found to harbour potentially relevant annotated genes. RHM confirmed the effect of these genomic regions and identified new regions on BTA 18 for phenotype 1 and BTA 3 for phenotypes 2 and 3. Heritabilities of the genomic regions ranged between 0.05 and 0.08 across the three phenotypes. Chromosome association analysis indicated a major role of BTA 23 on susceptibility to bTB. Conclusion: Genomic regions and candidate genes identified in the present study provide an opportunity to further understand pathways critical to cattle susceptibility to bTB and enhance genetic improvement programmes aiming at controlling and eradicating the disease. [ABSTRACT FROM AUTHOR]

Published

2017

4. Genetic Characterization of Dog Personality Traits.

Author

Ilska, Joanna, Haskell, Marie J., Blott, Sarah C., Sánchez-Molano, Enrique, Polgar, Zita, Lofgren, Sarah E., Clements, Dylan N., and Wiener, Pamela

Subjects

*DOG behavior, *GENOMES, *GENETICS, *DNA, *GENOTYPES

Abstract

The genetic architecture of behavioral traits in dogs is of great interest to owners, breeders, and professionals involved in animal welfare, as well as to scientists studying the genetics of animal (including human) behavior. The genetic component of dog behavior is supported by between-breed differences and some evidence of within-breed variation. However, it is a challenge to gather sufficiently large datasets to dissect the genetic basis of complex traits such as behavior, which are both time-consuming and logistically difficult to measure, and known to be influenced by nongenetic factors. In this study, we exploited the knowledge that owners have of their dogs to generate a large dataset of personality traits in Labrador Retrievers. While accounting for key environmental factors, we demonstrate that genetic variance can be detected for dog personality traits assessed using questionnaire data. We identified substantial genetic variance for several traits, including fetching tendency and fear of loud noises, while other traits revealed negligibly small heritabilities. Genetic correlations were also estimated between traits; however, due to fairly large SEs, only a handful of trait pairs yielded statistically significant estimates. Genomic analyses indicated that these traits are mainly polygenic, such that individual genomic regions have small effects, and suggested chromosomal associations for six of the traits. The polygenic nature of these traits is consistent with previous behavioral genetics studies in other species, for example in mouse, and confirms that large datasets are required to quantify the genetic variance and to identify the individual genes that influence behavioral traits. [ABSTRACT FROM AUTHOR]

Published

2017