Gabidulin VM, Alimova SA, Salikhov AA, Poptsova OS, Belkov GI.

DOI: 10.33284/2658-3135-102-4-106

UDC 636.082.11:636.22/28.082.13

Acknowledgements:

Research was carried out according the plan of research scientific works on 2019-2021 yy. FSBSI FRC BST RAS (No 0761-2019-0012)

Peculiarities of polymorphism of CAST and bGH genes of young Angus cattle

Vyacheslav M Gabidulin1, Svetlana A Alimova1, Azat A Salikhov2, Olga S Poptsova3,

Grigoriy I Belkov1

1 Federal Research Centre of Biological Systems and Agrotechnologies of the Russian Academy of Sciences (Orenburg, Russia)

2 Orenburg Branch of the FSBEI HE «Russian Economic University named after GV Plekhanov» (Orenburg, Russia)

3Perm Institute of Federal Penitentiary Service of Russia (Perm, Russia)

 

Summary. The article presents the results of a study of genotyping of young animals by candidate genes CAST and bGH, associated with the productivity indicators of young Angus breed of Australian reproduction. Authors revealed that in ranked 50 heifers and 50 bulls according to CAST gene, the frequency of occurrence of homozygous SS genotype in heifers was 0.92 units, in bulls – 0.88. At the same time, the frequency of the C allele prevailed over the G allele in the group of heifers by 0.84 units, of bulls – 0.76 units. According to the bGH gene, the frequency of occurrence of the desired GG genotype in heifers was 0.14 units. in bulls – 0.10 units, and heterozygous CG genotype in heifers – 0.26 units, in gobies – 0.32. According to the frequency of occurrence of the desired G allele, heifers exceeded bulls by 0.01 units and, conversely, were inferior in the C allele in 0.01 units.

Key words: bulls, heifers, Angus breed, polymorphism, genotypes, alleles.

References

  1. Kayumov FG, Gerasimov NP, Tretyakova RF, Gubashev NM. The effect of growth hormone polymorphism on weight growth of crossbred Red Angus×Kalmyk heifers (Conference proceedigs). Modern Scientific and Practical Solutions in Animal Husbandry: International Materials. Scientific-Pactical conf. Uralsk, 2019: 25-31.
  2. Gabidulin VM. Alimova SA, Tarasov MV. Influence of thyreoglobulin polymorphism (TG-5) on the productivity of Angus herd of Australian selection in the Trans-Ural region in LLC «Suer». Herald of Beef Cattle Breeding. 2016;3(95):21-26.
  3. Gabidulin VM, Alimova SA, Tyulebayev SJ. Modern methods for the gene pool effective utilization in aberdin-angus cattle of australian selection using dna-markers. Vestnik Kurgan SAA. 2017;2(22):28-30.
  4. Dzhulamanov K, Selionova M, Gerasimov N. The genetic characteristic of hereford cattle population. Vestnik Bashkir State Agrarian University. 2018;4(48):59-64. doi: 10.31563/1684-7628-2018-48-4-59-64
  5. Dubovskova MP, Gerasimov NP. The formation of database with selection and genetic parameters with considering the dna markers polymorphism in hereford breed. Dairy and Beef Cattle Breeding. 2017;5:11-13.
  6. Zinnatova FF, Zinnatov FF. Role of lipid metabolism genes (dgat1, tg5) in improving economically valuable traits cattle. Scientific Notes Kazan Bauman State Academy of Veterinary Medicine. 2014;3:164-168.
  7. Kaumov FG, Shevkhuzhev AF. The current state and perspective of beef cattle breeding development in the Russia. Zootechniya. 2016;11:2-6.
  8. Lazebnaya IV, Lazebny OE, Sulimova GE. Study of genetic variation in Yakutian Cattle (Bos taurus L.) using the prolactin bPRL, growth hormone bGH, and transcription factor bPit31 Genes. Russian Journal of Genetics. 2010;46(3):425-428.).
  9. Miroshnikov SA. Beef cattle breeding in Russia: current status and development prospects. (Conference proceedigs) Beef cattle breeding – priorities and development prospects: international materials. Scientific-Practical Conf. (Orenburg, April 25-26, 2018). edited by Corr. Memb SA Miroshnikov. Orenburg: Publishing House of the Federal Research Center of BST RAS; 2018: 33-34.
  10. Selionova MI, Gladyr EA, Antonenko TI, Burylova SS. Using of molecular genetic markers in selective work with different kinds of farm animals. Agricultural Bulletin of Stavropol Region. 2012;2(6):30-35.
  11. Tyulebaev SZh, Kadysheva MD, Kanatpaev SM, Litovchenko VG. The state of allelic forms of CAPN1, CAST genes and compatibility of different lines in the population of Bredy beef type of Simmentals. Herald of Beef Cattle Breeding. 2017;2(98):52-57.
  12. Soloshenko VA, Goncharenko GM, Pleshakov VA, Dvoryatkin AA, Grishina N.B., Goryacheva TS. The comparative analysis of meat breeds cattle of Siberia on the TG5 gene (marbling of meat). Achievements of Science and Technology of AIC.2014;1:52-53.
  13. Calus MPL. Genomic breeding value prediction: methods and procedures. Animal. 2010;4(2):157-164. doi: https://doi.org/10.1017/S1751731109991352
  14. Miquel MC, Villarreal E, Mezzadra C, Melucci L, Soria L, Corva P, Schor A. The association of CAPN1 316 marker genotypes with growth and meat quality traits of steers finished on pasture. Genetics and Molecular Biology. 2009;32(3):491-496. doi: http://dx.doi.org/10.1590/S1415-47572009000300011
  15. Schenkel FS, Miller SP, Jiang Z, Mandell IB, Ye X, Li H, Wilton JW. Association of a single nucleotide polymorphism in the calpastatin gene with carcass and meat quality traits of beef cattle. J Anim Sci. 2006;84(2):291-299. doi: https://doi.org/10.2527/2006.842291x
  16. Pereira AP, Alencar MM, Oliveira HN, Almeida Regitano LC. Association of GH and IGF-1 polymorphisms with growth traits in a synthetic beef cattle breed. Genetics and Molecular Biology. 2005;28(2):230-236. doi: http://dx.doi.org/10.1590/S1415-47572005000200009
  17. Katoh K, Kouno S, Okazaki A, et al. Interaction of GH polymorphism with body weight and endocrine functions in Japanese black calves. Domestic Animal Endocrinology. 2008;34(1):25-30. doi: https://doi.org/10.1016/j.domaniend.2006.10.003
  18. Oprządek J, Dymnicki E, Zwierzchowski L, Łukaszewicz M. The effect of growth hormone (GH), κ-kasein (CASK) and β-lactoglobulin (BLG) genotypes on carcass traits in Friesian bulls. AnimalSciencePapersandReports. 1999;17:85-92.

Gabidulin Vyacheslav Mikhaylovich, Dr. Sci. (Agr.), Leading Researcher, Beef Cattle Breeding Department, Federal Research Centre of Biological Systems and Agrotechnologies of the Russian Academy of Sciences, 460000, Orenburg, Russia, 29, 9 Yanvarya St., tel.: 8(3532)30-81-74, е-mail: Gabidulin.V.M@yandex.ru

Alimova Svetlana Anatolevna, Cand. Sci. (Agr.), Junior Research, Beef Cattle Breeding Department, Federal Research Centre of Biological Systems and Agrotechnologies of the Russian Academy of Sciences, 460000, Orenburg, Russia, 29, 9 Yanvarya St., tel.: 8(3532)30-81-74, , е-mail: vniims.or@mail.ru

Salikhov Azat Asgatovich, Dr. Sci. (Agr.), Professor, Department of Management and Trade, Orenburg Branch of the FSBEI HE «Russian Economic University named after GV. Plekhanov», 460000, Orenburg, Russia, Leninskaya / Pushkinskaya, house 50 / 51-53 St., e-mail: 04051957saa@mail.ru

Poptsova Olga Sergeevna, Cand. Sci. (Agr.), Associate Professor, Department of Animal Science, Perm Institute of the Federal Penal Service, major of internal service,614012, Perm, Russia, 125 Karpinskogo str., tel.: 8-952-646-30-64, e-mail: olya.olga-olga71@yandex.ru

Belkov Grigoriy Ivanovich, Dr. Sci. (Agr.), Corresponding Member of RAS, scientific director, Chief Researcher of Livestock Department Federal Research Centre of Biological Systems and Agrotechnologies of the Russian Academy of Sciences, 460051, Orenburg, Russia, Gagarina Ave., 27/1, тел.:8(3532)43-00-90 e-mail: orniish@mail.ru

Received: 6 December 2019; Accepted: 16 December 2019;Published: 31 December 2019

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