Evgenia S Surzhikova, Мarina P Dubovskova, Nikolay P Gerasimov
Animal Husbandry and Fodder Production. 2021. Vol. 104, no 4. Р. 67-78.
doi:10.33284/2658-3135-104-4-67
Polymorphism of genes CAPN1(c. 316 C>G), TG5(c.-422C>T), GH(c.2141C>G), LEP(c.73C>T) in young beef animals of Stavropol population Hereford breed
Evgenia S Surzhikova1, Мarina P Dubovskova2, Nikolay P Gerasimov3
1North Caucasus Federal Agrarian Research Center, Mikhailovsk, Russia
2,3Federal Research Centre of Biological Systems and Agrotechnologies of the Russian Academy of Sciences, Orenburg, Russia
1lab.dna @fnac.center, https //orcid org/ 0000-0002-3955-0902
2dubovskova.m@mail.ru, https://orcid.org/0000-0001-6915-4647
3nick.gerasimov@rambler.ru, https://orcid.org/0000-0003-2295-5150
Abstract. Recently, due to the use of advances in molecular genetic research, significant successes have been achieved in meat cattle breeding. The issue of introducing progressive DNA technologies is not accidentally in the spotlight of specialists working in market cattle breeding, since attracting information about genetic markers changes the value of animals. The purpose of these studies was to evaluate the genetic profile of repair young growth of Hereford cattle breed on the basis of DNA-software testing to polymorphisms genes CAPN1 (with. 316 C > G), TG5 (c.-422C > T), GH (c.2141C > G), LEP (c.73C > T), which were bred in the breeding farm of the Stavropol Territory. PCR-PDRF methods genotyped repair young Hereford (n = 103).
As a result of the studies, the polymorphism of the studied genes was determined. Polymorphism is represented by two alleles: CAPN1C and CAPN1G, TGТ and TGC, GHG and GH CLEPТиLEPС, three genotypes: CAPN1СС, CAPN1GG, CAPN1СG; TGТТ, TGCC, TGТC; GHGG, GHCC, GHCG;LEPСС, LEPТТ, LEPСТ with significant frequency variability of both alleles and genotypes, which was: for alleles - from minimum 0.15, to maximum values 0.85, genotypes - from minimum values 2.0% to maximum 75%. It was found that the presence of the desired gene complex of four alleles which consist from four to three genes (TGTС/GHGG/LEPТT or CAPN1CG/TGTС/GHCG/LEPCT) in calves of the Hereford breed was 21.4%, in heifers - 10.0%. Most of the herd (64.3-46.7%) were carriers of two marker alleles which consist from two or one gene. For the first time, the specificity of the allelic profile of genes CAPN1(c. 316 C>G), TG5 (c.-422C>T), GH(c.2141C>G), LEP(c.73C>T) of repair young Hereford breed, especially valuable genotypes were identified, their specific gravity was determined for wide use in the practical selection of the Stavropol Territory.
Keywords: cattle, herd replacements, Hereford breed, polymorphism, gene complex, genotype, CAPN1, TG, GH, LEP, Stavropol Territory
Acknowledgments: the work was performed in accordance to the plan of research works for 2021-2023 FSBRI FRC BST RAS (No. 0526-2021-0001).
For citation: Surzhikova ES, Dubovskova МP, Gerasimov NP. Polymorphism of genes CAPN1(c. 316 C>G), TG5(c.-422C>T), GH(c.2141C>G), LEP(c.73C>T) in young beef animals of Stavropol population Нereford breed. Animal Husbandry and Fodder Production. 2021;104(4):67-78. (In Russ.). https://doi.org/10.33284/2658-3135-104-4-67
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Information about the authors:
Evgenia S Surzhikova, Cand. Sci. (Agriculture), Senior Researcher, Laboratories of Immunogenetics and DNA Technologies, North Caucasus Federal Agrarian Research Center, 356241, Stavropol Territory, Shpakovsky district, Mikhailovsk, st. Nikonova, 49.
Marina P Dubovckova, Dr. Sci. (Agriculture), Leading Researcher, Breeding and Genetic Center For Beef Cattle Breeds, Federal Research Centre of Biological Systems and Agrotechnologies of the Russian Academy of Sciences, 460000, Orenburg, 29 9 Yanvarya St., cell.: 8-922-621-61-78.
Nikolay P Gerasimov, Dr. Sci. (Biology), Senior Researcher, Breeding and Genetic Center For Beef Cattle Breeds, Federal Research Centre of Biological Systems and Agrotechnologies of the Russian Academy of Sciences, 460000, Orenburg, 29 9 Yanvarya St., cell: 8-912-358-96-17.
The article was submitted 13.10.2021; approved after reviewing 22.11.2021; accepted for publication 13.12.2021
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