Your search keyword '"LIVESTOCK behavior"' showing total 3 results

1. Haplotype-Based Single-Step GWAS for Yearling Temperament in American Angus Cattle

Author

Andre C. Araujo, Paulo L. S. Carneiro, Amanda B. Alvarenga, Hinayah R. Oliveira, Stephen P. Miller, Kelli Retallick, and Luiz F. Brito

Subjects

Multifactorial Inheritance, pseudo-SNPs, Genotype, Quantitative Trait Loci, social interaction, Genomics, QH426-470, Polymorphism, Single Nucleotide, Article, haplotype block, functional analysis, Phenotype, Gene Frequency, Haplotypes, livestock behavior, Genetics, Animals, candidate genes, linkage disequilibrium, Cattle, Temperament, Genetics (clinical), Genome-Wide Association Study

Abstract

Behavior is a complex trait and, therefore, understanding its genetic architecture is paramount for the development of effective breeding strategies. The objective of this study was to perform traditional and weighted single-step genome-wide association studies (ssGWAS and WssGWAS, respectively) for yearling temperament (YT) in North American Angus cattle using haplotypes. Approximately 266 K YT records and 70 K animals genotyped using a 50 K single nucleotide polymorphisms (SNP) panel were used. Linkage disequilibrium thresholds (LD) of 0.15, 0.50, and 0.80 were used to create the haploblocks, and the inclusion of non-LD-clustered SNPs (NCSNP) with the haplotypes in the genomic models was also evaluated. WssGWAS did not perform better than ssGWAS. Cattle YT was found to be a highly polygenic trait, with genes and quantitative trait loci (QTL) broadly distributed across the whole genome. Association studies using LD-based haplotypes should include NCSNPs and different LD thresholds to increase the likelihood of finding the relevant genomic regions affecting the trait of interest. The main candidate genes identified, i.e., ATXN10, ADAM10, VAX2, ATP6V1B1, CRISPLD1, CAPRIN1, FA2H, SPEF2, PLXNA1, and CACNA2D3, are involved in important biological processes and metabolic pathways related to behavioral traits, social interactions, and aggressiveness in cattle. Future studies should further investigate the role of these candidate genes.

Published

2022

2. A Systematic Review of Genomic Regions and Candidate Genes Underlying Behavioral Traits in Farmed Mammals and Their Link with Human Disorders

Author

Stephen P. Miller, Amanda Botelho Alvarenga, Jeremy N. Marchant-Forde, Hinayah R. Oliveira, Laís Grigoletto, Shi-Yi Chen, and Luiz F. Brito

Subjects

0301 basic medicine, sheep, Candidate gene, Biology, animal welfare, 03 medical and health sciences, Exon, domestication, Polymorphism (computer science), lcsh:Zoology, medicine, livestock behavior, lcsh:QL1-991, behavioral genetics, Domestication, Gene, Behavioural genetics, Genetics, lcsh:Veterinary medicine, General Veterinary, 0402 animal and dairy science, pigs, temperament, 04 agricultural and veterinary sciences, medicine.disease, 040201 dairy & animal science, 030104 developmental biology, Schizophrenia, cattle, workability, lcsh:SF600-1100, Animal Science and Zoology, Human genome, Systematic Review

Abstract

Simple Summary This study is a comprehensive review of genomic regions associated with animal behavior in farmed mammals (beef and dairy cattle, pigs, and sheep) which contributes to a better understanding of the biological mechanisms influencing the target indicator trait and to gene expression studies by suggesting genes likely controlling the trait, and it will be useful in optimizing genomic predictions of breeding values incorporating biological information. Behavioral mechanisms are complex traits, genetically controlled by multiple genes spread across the whole genome. The majority of the genes identified in cattle, pigs, and sheep in association with a plethora of behavioral measurements (e.g., temperament, terrain use, milking speed, tail biting, and sucking reflex) are likely controlling stimuli reception (e.g., olfactory), internal recognition of stimuli (e.g., neuroactive ligand–receptor interaction), and body response to a stimulus (e.g., blood pressure, fatty acidy metabolism, hormone signaling, and inflammatory pathways). Six genes were commonly identified between cattle and pigs. About half of the genes for behavior identified in farmed mammals were also identified in humans for behavioral, mental, and neuronal disorders. Our findings indicate that the majority of the genes identified are likely controlling animal behavioral outcomes because their biological functions as well as potentially differing allele frequencies between two breed groups (subjectively) clustered based on their temperament characteristics. Abstract The main objectives of this study were to perform a systematic review of genomic regions associated with various behavioral traits in the main farmed mammals and identify key candidate genes and potential causal mutations by contrasting the frequency of polymorphisms in cattle breeds with divergent behavioral traits (based on a subjective clustering approach). A total of 687 (cattle), 1391 (pigs), and 148 (sheep) genomic regions associated with 37 (cattle), 55 (pigs), and 22 (sheep) behavioral traits were identified in the literature. In total, 383, 317, and 15 genes overlap with genomic regions identified for cattle, pigs, and sheep, respectively. Six common genes (e.g., NR3C2, PITPNM3, RERG, SPNS3, U6, and ZFAT) were found for cattle and pigs. A combined gene-set of 634 human genes was produced through identified homologous genes. A total of 313 out of 634 genes have previously been associated with behavioral, mental, and neurologic disorders (e.g., anxiety and schizophrenia) in humans. Additionally, a total of 491 candidate genes had at least one statistically significant polymorphism (p-value < 0.05). Out of those, 110 genes were defined as having polymorphic regions differing in greater than 50% of exon regions. Therefore, conserved genomic regions controlling behavior were found across farmed mammal species and humans.

Published

2021

3. Origin and assessment of bruises in beef cattle at slaughter

Author

Bas Kemp, J.H.M. Metz, Carmen Gallo, and A.C. Strappini

Subjects

Veterinary medicine, animal diseases, Pre slaughter, Beef cattle, SF1-1100, animal welfare, meat quality, ATV Farm Technology, beef cattle, northern australia, Animal welfare, Environmental health, livestock behavior, human skin wounds, transport stress, Medicine, traumatic injuries, Adaptatiefysiologie, age-determination, business.industry, stocking density, food and beverages, immunohistochemical detection, pre-slaughter, Animal culture, bruise, age of bruises, Bruise, Northern australia, WIAS, Adaptation Physiology, Animal Science and Zoology, Livestock, medicine.symptom, business, Transport stress

Abstract

Studies of bruises, as detected on carcasses at the slaughterhouse, may provide useful information about the traumatic situations the animals endure during the pre-slaughter period. In this paper, we review scientific data on the prevalence, risk factors and estimation of the age of bruises in beef cattle. Risk factors such as animal characteristics, transport conditions, stocking density, livestock auction and handling of the animals are discussed. Investigation of the age of bruises could provide information on when in the meat chain bruises occur and, could help to pinpoint where preventive measures should be taken, from the stage of collecting the animals on the farm until slaughter. We review the methods available to assess the age of the bruises; data on human forensic research are also included. The feasibility to identify traumatic episodes during the pre-slaughter period, in order to improve animal welfare is discussed.

Published

2009