Influence of single nucleotide polymorphism in the IGF-1 gene on performance and conformation traits in Munjal sheep.
Sandeep KumarSatpal DahiyaAnkit MagotraPoonam RatwanYogesh Chandrakant BangarPublished in: Zygote (Cambridge, England) (2022)
Genetic polymorphism research in livestock species aims to assess genetic differences within and among breeds, primarily for conservation and development objectives. The aim of the present study was to determine the point mutation in the IGF-1 gene (g.855G>C and g.857G>A) and its association with performance traits in Munjal sheep. In total, 50 Munjal sheep were selected and the genomic DNA was isolated using the Automated Maxell RSC DNA/RNA purification system and the Maxwell RSC whole blood DNA kit. A reported set of primers was used to amplify the 294-bp fragment encompassing the targeted region, i.e. the 5' flanking region of the IGF-1 gene. The polymerase chain reaction product of 294-bp size harbouring the g.857G>A mutation in the 5' flanking region of the IGF-1 gene was digested with Hae II enzyme. Three possible genotypes were defined by distinct banding patterns, i.e. GG (194, 100 bp), GA (294, 194, 100 bp) and AA (294 bp) in the studied population of Munjal sheep. The genotypic and allelic frequencies of g.857G>A single nucleotide polymorphism of the IGF-1 gene indicated that the frequency of the A allele was higher in the studied population, i.e. 0.59 and the GA genotype was found to be the predominant genotype (0.66). Allele A of the IGF-1 gene was found to be associated with higher body weights and can be used in selection criteria for improving the performance of Munjal sheep. The positive effect of the IGF-1 gene on several conformational traits as observed in this study suggests that this area of the ovine IGF-I gene is particularly important and warrants further investigation on a larger population size.
Keyphrases
- transcription factor
- genome wide identification
- genome wide
- copy number
- binding protein
- pi k akt
- growth hormone
- dna methylation
- single molecule
- pet ct
- circulating tumor
- machine learning
- molecular dynamics simulations
- cell free
- drug delivery
- signaling pathway
- gene expression
- single cell
- heavy metals
- nucleic acid
- cancer therapy
- circulating tumor cells
- cell proliferation