Investigating growth associated genomic short tandem repeats (STRs) in a resource population generated through molecular breeding of RIR chicken

Abstract

The long-term selection based on phenotypes causes loss of variation in performance traits and slows down the genetic progress per generation in the population; genomic selection could restore the variability along with faster genetic progress. Genomic short tandem repeats (STRs) in a resource population of RIR chicken were explored investigating randomly selected 114 pedigreed chicks. Alleles separated through 3.4% MetaPhor agarose gel electrophoresis at ten STR loci, and data recorded on growth traits were analyzed. Twenty-six alleles were resolved with frequencies of 0.1140–0.7632 and > 38.60% for the most frequent alleles at ten STR loci. The most frequent genotypes appeared with frequency >21.93% at different loci. Polymorphic information contents ranged from 0.2961 (LEI0079) to 0.6716 (LEI0071). Effective number of alleles ranged from 1.5662 (LEI0079) to 3.5836 (LEI0071). Mean FIS statistics revealed overall 21.78% heterozygosity deficit. Average heterozygosity ranged from 0.3630 (LEI0079) to 0.7241 (LEI0071). Chi-square and G-square test showed the population in Hardy-Weinberg disequilibrium at nine loci. Chick weight was significantly influenced by the factor of sire, and body weight traits by sex and hatch factors of the birds coded with STR-genotypes. ADL0328-BB genotype had the highest chick weight. LEI0068-BC and LEI0071-CC genotypes showed maximum 28-weeks body weight. MCW0010-AA genotype had the potential bearing of the highest body weight records at 16, 32, 36 and 40 weeks of age. MCW0058-CC genotype revealed the same at 24 and 28 weeks of age. The study impacts on marker assisted selection program for genetic improvement of growth traits in poultry.