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Patterson Rosa, L., Troop, T. W., Martin, K., Vierra, M., Foster, G., Lundquist, E., Brooks, S. A., & Lafayette, C. (2021). Hereditary Equine Regional Dermal Asthenia homozygote adult working horse with mild signs - A Case Report. Journal of Equine Veterinary Science, 106, 103756.
Martin, K., Brooks, S., Vierra, M., Lafayette, W. T., McClure, S., Carpenter, M., & Lafayette, C. (2020). Fragile Foal Syndrome (PLOD1 c.2032G>A) occurs across diverse horse populations. Animal Genetics, 52(1), 137–138.
Patterson Rosa, L., Whitaker, B., Allen, K., Peters, D., Buchanan, B., McClure, S., Honnas, C., Buchanan, C., Martin, K., Lundquist, E., Vierra, M., Foster, G., Brooks, S., & Lafayette, C. (2022). Genomic loci associated with performance limiting equine overriding spinous processes (kissing spines). Research in Veterinary Science, 150, 65-71.
Patterson Rosa, L., Staiger, E. A., Martin, K., Vierra, M., Foster, G., Lundquist, E., Brooks, S. A., & Lafayette, C. (2021). Stock-type equine disciplines Hunter, Reining and Roping are associated with the A allele at the DMRT3 locus for gait phenotypes in the horse. Animal Genetics, 10.1111/age.13110.
Gaspar, M. C., Campos, F. A., Staiger, E. A., Martin, K., Vierra, M., Foster, G., ... & Lafayette, C. (2021). Disciplinas esportivas em cavalos de raças de trabalho são associadas ao alelo A no locus DMRT3. Equina, 15, 4-8.
Obradovic, N. A., McFadden, A., Martin, K., Vierra, M., McLoone, K., Martin, E., ... & Lafayette, C. (2025). Three Novel KIT Polymorphisms Found in Horses with White Coat Color Phenotypes. Animals, 15(7), 915.
McFadden, A., Vierra, M., Martin, K., Brooks, S. A., Everts, R. E., & Lafayette, C. (2024). Spotting the Pattern: A Review on White Coat Color in the Domestic Horse. Animals , 14(3), 451.
McFadden, A., Martin, K., Vierra, M., Robilliard, H., Lundquist, E. W., Everts, R. E., Brooks, S. A., & Lafayette, C. (2024). Three HPS5 mutations associated with depigmentation in diverse horse breeds. Livestock Science, 282, 105454.
McFadden, A., Vierra, M., Robilliard, H., Martin, K., Brooks, S. A., Everts, R. E., & Lafayette, C. (2024). Population Analysis Identifies 15 Multi-Variant Dominant White Haplotypes in Horses. Animals, 14(3), 517.
McFadden, A., Martin, K., Foster, G., Vierra, M., Lundquist, E. W., Everts, R. E., Martin, E., Volz, E., McLoone, K., Brooks, S. A., & Lafayette, C. (2023). Two Novel Variants in MITF and PAX3 Associated With Splashed White Phenotypes in Horses. [_Journal of Equine Veterinary Science-}(https://doi.org/10.1016/j.jevs.2023.104875), 128, 104875.
McFadden, A., Martin, K., Foster, G., Vierra, M., Lundquist, E. W., Everts, R. E., Martin, E., Volz, E., McLoone, K., Brooks, S. A., & Lafayette, C. (2023). 5′UTR Variant in KIT Associated With White Spotting in Horses. Journal of Equine Veterinary Science, 127, 104563.
Patterson Rosa, L., Martin, K., Vierra, M., Lundquist, E., Foster, G., Brooks, S. A., & Lafayette, C. (2022). A KIT Variant Associated with Increased White Spotting Epistatic to MC1R Genotype in Horses (Equus caballus). Animals, 12(15), 1958.
Patterson Rosa, L., Martin, K., Vierra, M., Foster, G., Brooks, S. A., & Lafayette, C. (2022). Non‐frameshift deletion on MITF is associated with a novel splashed white spotting pattern in horses (Equus caballus). Animal genetics, 53(4).
Patterson Rosa, L., Martin, K., Vierra, M., Foster, G., Lundquist, E., Brooks, S. A., & Lafayette, C. (2021). Two Variants of KIT Causing White Patterning in Stock-Type Horses. Journal of Heredity, 112(5), 447-451.
Martin, K., Rosa, L. P., Vierra, M., Foster, G., Brooks, S. A., & Lafayette, C. (2021). De novo mutation of KIT causes extensive coat white patterning in a family of Berber horses. Animal Genetics, 52(1), 135-137.
Bisbee, D., Carpenter, M. L., Hoefs-Martin, K., Brooks, S. A., & Lafayette, C. (2020). Identification of a novel missense variant in SLC45A2 associated with dilute snowdrop phenotype in Gypsy horses. Animal Genetics, 51(2), 342-343.
Holl, H. M., Pflug, K. M., Yates, K. M., Hoefs-Martin, K., Shepard, C., Cook, D. G., Lafayette, C., & Brooks, S. A. (2019). A candidate gene approach identifies variants in SLC45A2 that explain dilute phenotypes, pearl and sunshine, in compound heterozygote horses. Animal Genetics, 50(3), 271-274.
Henkel, J., Lafayette, C., Brooks, S. A., Martin, K., Patterson-Rosa, L., Cook, D., Jagannathan, V., & Leeb, T. (2019). Whole-genome sequencing reveals a large deletion in the MITF gene in horses with white spotted coat colour and increased risk of deafness. Animal Genetics, 50(2), 172-174.
Dürig, N., Jude, R., Holl, H., Brooks, S. A., Lafayette, C., Jagannathan, V., & Leeb, T. (2017). Whole genome sequencing reveals a novel deletion variant in the KIT gene in horses with white spotted coat colour phenotypes. Animal Genetics, 48(4), 483-485.
Holl, H. M., Brooks, S. A., Carpenter, M. L., Bustamante, C. D., & Lafayette, C. (2017). A novel splice mutation within equine KIT and the W15 allele in the homozygous state lead to all white coat color phenotypes. Animal Genetics, 48(4), 497–498.
Holl, H. M., Vanhnasy, J., Everts, R. E., Hoefs-Martin, K., Cook, D., Brooks, S. A., Carpenter, M. L., Bustamante, C. D., & Lafayette, C. (2017). Single nucleotide polymorphisms for DNA typing in the domestic horse. Animal Genetics, 48(6), 669-676.
Patterson Rosa, L., Campos, F. A., Martin, K., Vierra, M., Foster, G., Lundquist, E., Brooks, S. A., & Lafayette, C. (2022). Demystifying the Genetic Origins of the Mangalarga Horse Through the Influential Stallion Turbante J.O. Journal of equine veterinary science, 113, 103910.
Henkel J, Lafayette C, Brooks SA, Martin K, Patterson-Rosa L, Cook D, Jagannathan V, Leeb T. (2019). Whole-genome sequencing reveals a large deletion in the MITF gene in horses with white spotted coat colour and increased risk of deafness. Anim Genet. 50(2):172-174. doi: 10.1111/age.12762.
This publication shows an equine equivalent of Waardenburg Syndrome
Severe Combined Immunodeficiency Disease (SCID) is a condition in which affected foals are unable to mount an effective immune response after infection and are unable to recover from infections that unaffected foals would easily resist. The disease is universally fatal in horses, usually within 4-6 months of life.
West Nile Virus (WNV) is a mosquito-borne virus that can infect multiple types of mammals, including horses. Infection can lead to a series of severe symptoms, most commonly encephalitis – acute inflammation of the brain. Severe neurological symptoms develop in ~8% of exposed horses, and once symptoms manifest, the fatality rate ranges from 20-40% and is higher in older horses.
