Identification of genetic variation in equine collagenous lectins using targeted resequencing.
Abstract: Collagenous lectins are a family of soluble pattern recognition receptors that play an important role in innate immune resistance to infectious disease. Through recognition of carbohydrate motifs on the surface of pathogens, some collagenous lectins can activate the lectin pathway of complement, providing an effective means of host defense. Genetic polymorphisms in collagenous lectins have been shown in several species to predispose animals to a variety of infectious diseases. Infectious diseases are an important cause of morbidity in horses, however little is known regarding the role of equine collagenous lectins. Using a high-throughput, targeted re-sequencing approach, the relationship between genetic variation in equine collagenous lectin genes and susceptibility to disease was investigated. DNA was isolated from tissues obtained from horses submitted for post-mortem examination. Animals were divided into two populations, those with infectious or autoinflammatory diseases (n = 37) and those without (n = 52), and then subdivided by dominant pathological process for a total of 21 pools, each containing 4-5 horses. DNA was extracted from each horse and pooled in equimolar amounts, and the exons, introns, upstream (approximately 50 kb) and downstream (approximately 3 kb) regulatory regions for the 11 equine collagenous lectin genes and related MASP genes were targeted for re-sequencing. A custom target capture kit was used to prepare a sequencing library, which was sequenced on an Illumina MiSeq. After implementing quality control filters, 4559 variants were identified. Of these, 92 were present in the coding regions (43 missense, 1 nonsense, and 48 synonymous), 1414 in introns, 3029 in the upstream region, and 240 in the downstream region. In silico analysis of the missense short nucleotide variants identified 12 mutations with potential to disrupt collagenous lectin protein structure or function, 280 mutations located within predicted transcription factor binding sites, and 95 mutations located within predicted microRNA binding elements. Analysis of allelic association identified 113 mutations that segregated between the infectious/autoinflammatory and non-infectious populations. The variants discovered in this experiment represent potential genetic contributors to disease susceptibility of horses, and will serve as candidates for further population-level genotyping. This study contributes to the growing body of evidence that pooled, high-throughput sequencing is a viable strategy for cost-effective variant discovery.
Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.
Publication Date: 2018-07-07 PubMed ID: 30078590DOI: 10.1016/j.vetimm.2018.07.001Google Scholar: Lookup
The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Journal Article
Summary
This research summary has been generated with artificial intelligence and may contain errors and omissions. Refer to the original study to confirm details provided. Submit correction.
The study aimed to explore the role and genetic variation in equine collagenous lectins (protein molecules) and their relationship to disease susceptibility in horses. Techniques like high-throughput sequencing were used to identify DNA variants in the genes producing these proteins, potentially influencing their function and disease resistance in horses.
Research Methodology
- The study divided horses into two groups: those who had infectious/autoinflammatory diseases and those who did not. This was done to compare genetic differences potentially responsible for disease susceptibility.
- Each group was further subdivided according to the dominant pathological process. The subdivision resulted in a total of 21 pools, with each pool containing 4-5 horses.
- Researchers extracted DNA from tissues obtained from horses during post-mortem examination for high-throughput, targeted resequencing.
- They sequenced genes specific to equine collagenous lectins and other related MASP genes. These include the genes’ exons, introns, and around 50 kb upstream and 3 kb downstream regulatory regions.
- The researchers employed ‘target capture kits’ to prepare sequencing libraries for an Illumina MiSeq sequencing platform.
Findings and Analysis
- After a robust quality control process, the study discovered 4559 variations in the DNA sequence.
- The genetic variants were found in coding regions, introns, and upstream and downstream regulatory regions of the genes.
- Using in silico (computer-based) analysis, researchers identified mutations that could potentially alter the protein structure or function of collagenous lectins, mutations in the regions where transcription factors bind, and mutations in the locations where microRNA elements bind.
- The study successfully identified 113 mutations that segregated between the group with infectious/autoinflammatory diseases and the non-infectious group. These findings suggest these genetic variations as potential contributors to disease susceptibility in horses.
Contributions of the Study
- This research indicates the potential importance of equine collagenous lectins in horses’ susceptibility to infectious diseases. The detection of disease-associated genetic variants could pave the way for improved disease management strategies in horses.
- The study’s outcomes also showcase how high-throughput sequencing can be a effective and cost-efficient method for identifying variant discoveries, contributing to the growing evidence supporting such methodologies.
Cite This Article
APA
Fraser RS, Arroyo LG, Meyer A, Lillie BN.
(2018).
Identification of genetic variation in equine collagenous lectins using targeted resequencing.
Vet Immunol Immunopathol, 202, 153-163.
https://doi.org/10.1016/j.vetimm.2018.07.001 Publication
Researcher Affiliations
- Department of Pathobiology, University of Guelph, Guelph, Ontario, N1E 2W1, Canada. Electronic address: rfrase03@uoguelph.ca.
- Department of Clinical Studies, University of Guelph, Guelph, Ontario, N1E 2W1, Canada. Electronic address: larroyo@uoguelph.ca.
- Department of Pathobiology, University of Guelph, Guelph, Ontario, N1E 2W1, Canada. Electronic address: ann.meyer@oicr.ca.
- Department of Pathobiology, University of Guelph, Guelph, Ontario, N1E 2W1, Canada. Electronic address: blillie@uoguelph.ca.
MeSH Terms
- Alleles
- Animals
- Collectins / genetics
- Collectins / immunology
- Communicable Diseases / immunology
- Genetic Predisposition to Disease
- Genetic Variation
- High-Throughput Nucleotide Sequencing
- Horses
- Immunity, Innate
- Mannose-Binding Protein-Associated Serine Proteases / genetics
- Polymorphism, Single Nucleotide / genetics
Citations
This article has been cited 1 times.- Wittenburg D, Bonk S, Doschoris M, Reyer H. Design of experiments for fine-mapping quantitative trait loci in livestock populations. BMC Genet 2020 Jun 29;21(1):66.
Use Nutrition Calculator
Check if your horse's diet meets their nutrition requirements with our easy-to-use tool Check your horse's diet with our easy-to-use tool
Talk to a Nutritionist
Discuss your horse's feeding plan with our experts over a free phone consultation Discuss your horse's diet over a phone consultation
Submit Diet Evaluation
Get a customized feeding plan for your horse formulated by our equine nutritionists Get a custom feeding plan formulated by our nutritionists