ABSTRACT
The purpose of this work was to establish DNA marker frequencies for genetic disorders, colour, horned/polled trait, and major genes of importance for productive and reproductive traits in Blanco Orejinegro (BON) cattle. The Blanco Orejinegro breed is a Colombian creole breed characterized by a white hair coat on black skin with black ears, black hair on the middle part of the legs, and absence of horns. We genotyped 420 animals of Colombia, 70 with the GGP-Bovine 150 K chip and 350 with the GGP-Bovine 50 K chip. The markers were associated with 50 genetic diseases, 52 major gene variants related to productive traits, and 12 variants related to coat coloration, presence of horns, and adaptation, selected from the information contained in the chips. Genotype frequencies were estimated using the R statistical program. Genetic disorder annotations were derived using the Online Mendelian Inheritance in Animals tool (OMIA) and the average inbreeding coefficient (F) (n = 7799) using the MTDFNRM program. Carriers were found for 16 of the genetic disorders evaluated but with low frequencies (0.24 to 2.46%); no homozygous animals were found for the disorders. Carriers were associated with disorders such as bovine leukocyte adhesion deficiency (BLAD), deficiency of uridine monophosphate synthase (DUMPS), syndactyly, and epidermolysis bullosa (EB). The F was 4.41%. Concerning the genes associated with colour (TYR, MC1R, and PMEL), alleles related to black pigmentation, the absence of horns (polledness), and slick coat (an adaptive trait) were highly frequent (> 81.90%). Markers associated with milk production and quality, yellow fat, and fertility showed variable frequencies, indicating selection potential. Allele frequency of genetic disorders in BON cattle was low, suggesting few genetic disorder problems, with syndactyly being the most frequent condition. The markers associated with colour and polledness were almost fixed, with a frequency at or near 100%. Production and reproduction markers showed variability for selection.
Subject(s)
Inbreeding , Animals , Cattle/genetics , Color , Gene Frequency , Genotype , PhenotypeABSTRACT
Blanco Orejinegro (BON) cattle have 500 years of adaptation to the Colombian tropic, but little is known about their genetic history. Our aim was to estimate levels of linkage disequilibrium (LD), effective population size (Ne), genomic inbreeding for runs of homozygosity (FROH ), genomic relation matrix (FGRM ), excess of homozygotes (FHOM ) and pedigree information (FPEDCOMP ) and to characterize the runs of homozygosity (ROH), searching for selection signatures. A total of 419 BON animals were genotyped, 70 with a 150K chip and 349 with a 50K chip. Next, an imputation to 50K was performed, and, after editing, databases of 40K were obtained. The PLINK v1.90 and R programs were used to estimate LD, ROH, FROH and FHOM . The SNeP v1.1 program was used to obtain Ne, and PreGSf90 was used to elaborate the scaled G matrix. The MTDFNRM program was used to estimate FPEDCOMP . The LD mean as r2 at 1 Mb was 0.21 (r2 > 0.30 at a distance of 96.72kb), and Ne was 123 ± 1. A total of 7,652 homozygous segments were obtained, with a mean of 18.35 ± 0.55 ROH/animal. Most of the genome was covered by long ROHs (ROH>8 Mb = 4.86%), indicating significant recent inbreeding. The average inbreeding coefficient for FPEDCOM , FGRM , FHOM and FROH was 4.41%, 4.18%, 5.58% and 6.78%, respectively. The highest correlation was observed between FHOM and FROH (0.95). ROH hotspots/islands were defined using the extreme values of a box plot that was generated, and correspond to QTLs related to milk yield (55.11%), external appearance (13.47%), production (13.30%), reproduction (8.15%), health (5.24%) and meat carcass (4.74%).
