Indian Journal of Animal Research
SCOPUSWeb of Science
  • Year: 2023
  • Volume: 57
  • Issue: 9

Detection of homologous loci in sheep and cattle

  • Author:
  • Haifa El-Hentati1,2,*, R. Aloulou3,4, W. Derouich1, O. Abidi3, R. Omrane5, N. Thamri6, M. Hadhli7
  • Total Page Count: 6
  • Page Number: 1120 to 1125

1National Gene Bank of Tunisia, Boulevard of the Leader Yasser Arafat, Charguia (1) 1080Tunis, Ministry of Environment, Tunisia

2Research Laboratory “Ecosystems, Aquatic and Animal Resources” (LR21AGR01), University of Carthage, Tunisia

3University of Sousse, Higher Institute of Agronomy, BP 47, 4042, Chott-Mariem, Sousse, Tunisia

4Research Laboratory “Management and Control of Animal and Environmental Resources in Semi-Arid Environments” (LR18AG01), University of Sousse, Tunisia

5Animal Production District, Regional Agricultural Development Commission, 8130, Jendouba, Tunisia

6Directorate of Genetic Improvement of Sidi Thabet, Office of Livestock and Pasture, 2020, Ariana, Tunisia

7Regional Directorate of the Office of Livestock and Pasture of Mateur, Av. Habib Bourguiba, 7030, Mateur, Bizerte, Tunisia

*Corresponding Author: H. El-Hentati, National Gene Bank of Tunisia, Boulevard of the Leader Yasser Arafat, Charguia (1) 1080Tunis, Tunisia, Email: haifa_eh@yahoo.fr

Online published on 30 October, 2023.

Abstract

The study of the homology of loci between different species has allowed the improvement of specific genetic knowledge and the development of several fundamental concepts. Thanks to this method, Wright discovered the correspondence between a gene and an enzyme (Wright, 1917). In ruminants, this correspondence between loci of different species has been demonstrated for a very long time (Lauvergne, 1979). In fact, the objective of this work was, initially, to use microsatellites recommended for sheep (FAO, 2011) for the amplification of bovine DNA to show that these loci are homologous and, then, to study the genetic diversity and population structure of three groups of each of the two species in Tunisia.

In this study, we used three microsatellite markers (OarFCB304, OarFCB193 and MAF209) to verify whether they can be amplified in both sheep and cattle. For that, we considered 28 samples of sheep species from 3 different populations and 17 samples of cattle belonging to three breeds. The data obtained were also used to study their genetic diversity and population structure.

We have demonstrated the existence of microsatellite regions common to sheep and cattle. Regarding genetic diversity, we observed a heterozygous deficiency in all the studied breeds. Nei's genetic distances were greater between breeds of cattle than between breeds of sheep.

Keywords

Cattle, Genetic diversity, Homologous loci, ISSR, Sheep