Abstract

The genomic diversity and relationship among seven diverse cattle breeds viz. Sahiwal, Tharparkar, Gir, Vechur, Ongole, Kangayam and Hariana were investigated in 132 random samples based on high density SNP array comprising > 777 K SNPs. A total of 1993 SNPs (0.25% of the total) having greater power (FST ≥ 0.20) to differentiate these cattle populations were identified, and utilized to partition genome of each animal into a predefined number of clusters. The structure of these cattle indicated shared ancestry of dairy breeds viz. Gir, Tharparkar and Sahiwal. Most of the animals (> 76%) of different populations under study except Vechur clustered into their own group of animals called breed. Vechur population retained highest rate of admixture, consistent with its crossing with other breeds. Ongole, Kangayam and Hariana shared comparatively less of their genome (≤ 15%) with other breeds. The study indicated that all seven breeds evolved from their independent ancestry but there was intermixing of these breeds in the recent past. The selection signatures identified between draft (Kangayam) and dairy breeds included several genes like FAM19A2, RAB31P, BEST3, DGKA, AHCY, PIGU and PFKP which are involved in immune response, metabolic pathway, transportation of glucose and sugars, signaling pathways, cellular processes, cell division and glycolysis regulation, respectively. Moreover, these genomic regions also harbour QTLs affecting milk performance traits. The signatures were also identified even between the dairy breeds. In comparison to large-sized cattle, there were significant differences in the number of QTLs affecting production (body weight, growth rate etc.) and morphological traits (height) in short-statured Vechur breed. The presence of HMGA2 gene in the selection signature on chromosome 5 may explain the variations in stature between these cattle.

Highlights

  • The genomic diversity and relationship among seven diverse cattle breeds viz. Sahiwal, Tharparkar, Gir, Vechur, Ongole, Kangayam and Hariana were investigated in 132 random samples based on high density single nucleotide polymorphism (SNP) array comprising > 777 K SNPs

  • The final data on 112 cattle samples belonging to Sahiwal (13), Tharparkar (17), Gir (15), Ongole (17), Hariana (18), Kangayam (16) and Vechur (16) breeds were achieved after quality control measures (Table 1)

  • Out of 735,293 autosomal SNPs genotyped in these cattle, 60% (438,176) were in Hardy Weinberg equilibrium and revealed higher degree of polymorphism (MAF > 0.05)

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Summary

Introduction

The genomic diversity and relationship among seven diverse cattle breeds viz. Sahiwal, Tharparkar, Gir, Vechur, Ongole, Kangayam and Hariana were investigated in 132 random samples based on high density SNP array comprising > 777 K SNPs. The selection signatures identified between draft (Kangayam) and dairy breeds included several genes like FAM19A2, RAB31P, BEST3, DGKA, AHCY, PIGU and PFKP which are involved in immune response, metabolic pathway, transportation of glucose and sugars, signaling pathways, cellular processes, cell division and glycolysis regulation, respectively These genomic regions harbour QTLs affecting milk performance traits. India has 50 registered cattle breeds adapted to different agro-climatic conditions, breeding and management practices (https://nbagr.icar.gov.in/en/registered-cattle/) and are likely to differ for a number of traits These breeds thrive in humid subtropical, semi-arid & arid and tropical wet/dry climatic regions, catering to a variety of specialized functions such as dairy, draft and dual (Dairy & draft) use. We have included Vechur, a short statured cattle breed native to hot humid climate This array of cattle breeds, each adapted to a different ecological niche and functional attribute, will help to uncover genomic diversity and natural and artificial selection footprints over centuries. The objectives of the present study were to: (1) assess genomic diversity and effective population size; (2) analyse admixture and structuring; (3) identify diversified selection signatures among breeds using SNP data

Objectives
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Results

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