Open Access
Issue
BIO Web Conf.
Volume 17, 2020
International Scientific-Practical Conference “Agriculture and Food Security: Technology, Innovation, Markets, Human Resources” (FIES 2019)
Article Number 00109
Number of page(s) 5
DOI https://doi.org/10.1051/bioconf/20201700109
Published online 28 February 2020
  • G.M.F. de Camargo, The role of molecular genetics in livestock production Animal production sci. 59(2), 201–206 (2018) [CrossRef] [Google Scholar]
  • S.V. Tyulkin, T.M. Akhmetov, E.F. Valiullina, R.R. Vafin, Polymorphism of Somatotropin, Prolactin, Leptin, and Thyreoglobulin Genes in Bulls Russ. J. of Genetics: Applied Res. 3(3), 222–224 (2013) [CrossRef] [Google Scholar]
  • N.S. Yudin, M.I. Voevoda, Molecular genetic marker of economically important traits in dairy cattle Russ. J. of Genetics 51(5), 506–517 (2015) [CrossRef] [Google Scholar]
  • F.S. Sibagatullin, T.H. Faizov, G.S. Sharafutdinov, Sh.Z. Validov, R.R. Shaydullin, DNA technologies in animal husbandry Vestnik of Kazan State Agrar. Univer. 1(15), 130–132 (2010) [Google Scholar]
  • R.R. Shaydullin, G.S. Sharafutdinov, A. B. Moskvichtva, Protein content in the milk of first calf heifers of different CSN3 and DGAT1 genotypes during lactation Achievements of science and technology of AIC 33(5), 55–58 (2018) [Google Scholar]
  • S.V. Tyulkin, R.R. Vafin, L.R. Zagidulin, T.M. Akhmetov, A.N. Petrov, F. Diel, Technological properties of milk of cows with different genotypes of kappa-casein and betalactoglobulin Foods and Raw Materials 6(1), 154–162 (2018) [CrossRef] [Google Scholar]
  • R. Majeed, A. Nadeem, M.E. Babar, M. Javed, S. Munir, A. Manzoor, POU1 transcription factor 1 DNA polymorphism in Nili Ravi buffalo Buffalo Bull. 32, 706–709 (2013) [Google Scholar]
  • S. Munir, A. Nadeem, M. Javed, M.E. Babar, T. Hussain, W. Shehzad, R.Z. Iqbal, S. Manzoor, Identification of Pit 1 gene variants in Sahiwal cattle of Pakistan Pakistan J. of Zoology 49(4), 1315–1319 (2017) [CrossRef] [Google Scholar]
  • W.P.B. Putra, P.P. Agung, S. Said, The polymorphism in g.1256G>A of bovine pituitary specific transcription factor-1 (bPIT-1) gene and its association with body weight of Pasundan cattle J. Indonesian Trop. Anim. Agric. 44(1), 19–27 (2019) [CrossRef] [Google Scholar]
  • C. Zhang, B. Liu, H. Chen, X. Lan, C. Lei, Z. Zhang, R. Zhang, Associations of a HinfI PCRRFLP of POU1F1 gene with growth traits in Qinchuan cattle Anim. Biotech. 20, 71–74 (2009) [CrossRef] [Google Scholar]
  • N.T.D. Thuy, N.T. Thu, N.H. Cuong, L.V. Ty, T.T.B. Nguyen, D.V.A. Khoa, Polymorphism of PIT-1 and Prolactin Genes and Their Effects on Milk Yield in Holstein Frisian Dairy Cows Bred in Vietnam Russ. J. of Genetics 54(3), 346–352 (2018) [CrossRef] [Google Scholar]
  • A.K. Zabeel, W.G.M. Al-Bazi, H.A. Muhammed, Study the association of PIT1 gene polymorphism with milk yield and body weigh traits of local breed Iraqi cattle in Kerbala province Biochem. Cell. Arch. 18(2), 1867–1871 (2018) [Google Scholar]
  • D.A. Hussain, Genetic structure analysis of PIT-1/HinfI gene and its relationship with some productive traits in Iraqi and hybrid cows population (comparative study) World J. of pharmaceutical res. 5(7), 226–235 (2016) [Google Scholar]
  • M. Nasr, A. Awad, I. El Araby, Associations of leptin and pituitary-specific transcription factor genes polymorphisms with reproduction and production traits in dairy buffalo Reprod. domest. anim. 51(4), 597–603 (2016) [CrossRef] [PubMed] [Google Scholar]
  • E. Alfonso, R. Rojas, J.G. Herrera, M.E. Ortega, C. Lemus, C. Cortez, J. Ruiz, R. Pinto, H. Gomez, Polymorphism of the prolactin gene (PRL) and its relationship with milk production in American Swiss cattle African J. of biotechnol. 11(29), 7338–7343 (2012) [Google Scholar]
  • S.B. Oguzkan, A.S. Bozkurt, A study on the effect of Prolactin gene variants on milk production traits of Holstein cattle Russ. J. of genetics 55(4), 480–486 (2019) [CrossRef] [Google Scholar]
  • J.B. Patel, J.B. Chauhan, Polymorphism of the prolactin gene and its relationship with milk production in gir and kankrej cattle J. of natural sci., biology and med. 8, 167–170 (2017) [CrossRef] [Google Scholar]
  • M.L. Looper, S.G. Black, S.T. Reiter, Z.B. Johnson, C.F. Rosenkrans, R. Okimoto, M.A. Brown, Identification of polymorphisms in the enhancer region of the bovine Prolactin gene and association with profitability traits of beef cattle Professional animal scientist 26(1), 103–108 (2010) [CrossRef] [Google Scholar]
  • L. Meyer, J. Powell, B. Rutz, M. Looper, A. H. Brown, C. Rosenkrans, Associations of single nucleotide polymorphisms in the bovine prolactin gene with phenotypic traits in beef cattle Agri Gene. 5, 7–11 (2017) [CrossRef] [Google Scholar]
  • T. Bekseitov, R. Abeldinov, T. Asanbaev, G. Dzhaksybaeva, Expression of candidate genes of lipid metabolism in the Kazakhstani breeding Simmental cattle Annals of agrar. sci. 15, 443–446 (2017) [CrossRef] [Google Scholar]
  • A.V. Percun, I.V. Lazebnaya, S.G. Belokurov, M.N. Ruzina, G.E. Sulimova, Polymorphism of CSN3, BGH and BPRL genes in connection with milk quality traits in Kostroma cattle breed Fundam.l res. 11, 304–308 (2012) [Google Scholar]
  • T.A. Sedykh, E.A. Gladyr, V.R. Kharzinova, R.S. Gizatullin, L.A. Kalashnikova, Effect of GH and DGAT1 gene polymorphism on feeding Qualities of bull calves Russ. Agricult. Sci. 43(1), 48–52 (2017) [CrossRef] [Google Scholar]
  • V.A. Soloshenko, G.M. Goncharenko, A.A. Dvoryatkin, B.O. Inerbaev, T.S. Goryacheva, N.B. Grishina, Effect of thyroglobulin and somatotropin gene polymorphism on the intensity of growth in cattle Issues of biology of production animals 1, 55–58 (2011) [Google Scholar]
  • K. Tatsuda, K. Oka, A. Iwamoto, Y. Kuroda, H. Takeshita, H. Kataoka, S. Kouno, Relationship of the bovine growth hormone gene to carcass traits in Japanese black cattle J. Anim. Breed. Genet. 125(1), 45–49 (2008) [CrossRef] [PubMed] [Google Scholar]
  • M. Akkaya, B. Akyuz, Turkiye’de Yetigtirilen Holgtayn Irki Sigirlarda GHRH ve PRL Gen Polimorfizmleri ile Sut Verimi Arasindaki iliskinin Aragtirilmasi KSU Tarim ve Doga Derg. 22(5), 763–771 (2019) [Google Scholar]
  • M. Szewczuk, S. Zych, R. Chaberski, Effect of growth hormone-releasing hormone gene polymorphism (GHRH/HaeIII) on milk performance in Polish holstein-friesian cows Acta univ. agric. et silvic. Mendel. Brun. LVI (4), 177–182 (2008) [CrossRef] [Google Scholar]
  • K. Eriani, R. Rahmi, I. Jamil, R. Rosnizar, Body size characteristics and polymorphism in GH and GHRH genes of Simeulue Buffalo of Aceh, Indonesia Biodiversitas 20(1), 236–242 (2019) [CrossRef] [Google Scholar]
  • A. Dybus, M. Kmiec, Z. Sobek, W. Pietrzyk, B. Wisniewski, Associations between polymorphisms of growth hormone releasing hormone (GHRH) and pituitary transcription factor 1 (PIT1) genes and production traits of Limousine cattle Arch. Tierz., Dummerstorf. 46(6), 527–534 (2003) [Google Scholar]
  • E. Siadkowska, L. Zwierzchowski, J. Oprzadek, N. Strzalkowska, E. Bagnicka, J. Krzyzewski, Effect of polymorphism in IGF-1 gene on production traits in Polish Holstein-Friesian cattle Anim. Sci. Papers and Reports 24(3), 225–237 (2006) [Google Scholar]
  • E. Bonakdar, H.R. Rahmani, M.A. Edriss, B. E. Sayed-Tabatabaei, G.R. Ghorbani, Polymorphism of insulin-like growth factor I in Iranian Holstein cows British Society of Anim. Sci. 1, 210 (2008) [Google Scholar]
  • E. Czerniawska-Piatkowska, M. Szewczuk, E. Chocilowicz, B. Cioch, The comparison of yield, nutritive value and technological usefulness of milk from Holstein-Friesian cows of Black-and-White strain depending on the IGFI/SnaBI and IGF1R/HinfI polymorphisms Electronic J. of Polish. Agricult. Univer. 16(3) (2013) [Google Scholar]
  • W. Ge, M.E. Davis, H.C. Hines, K.M. Irvin, R.C.M. Simmen, Association of genetic markers with blood serum insulinlike growth factor-I concentration and growth traits in Angus cattle J. Anim. Sci. 79, 1757–1762 (2001) [CrossRef] [PubMed] [Google Scholar]
  • R.A. Curi, H.N. de Oliveira, A.C. Silveira, C. R. Lopes, Association between IGF-I, IGF-IR and GHRH gene polymorphisms and growth and carcass traits in beef cattle Livestock production sci. 94, 159–167 (2005) [CrossRef] [Google Scholar]
  • A.G. Galstyan, A.N. Petrov, I.A. Radaeva, O.O. Sarukhanyan, A.N. Kurzanov, A.P. Storozhuk, Scientific bases and technological principles of the production of gerodietetic canned milk Probl. of Nutrition 85(5), 114–119 (2016) [Google Scholar]
  • A.N. Petrov, A.G. Galstyan, I.A. Radaeva, S.N. Turovskaya, E.E. Illarionova, V.K. Semipyatnyi, S.A. Khurshudyan, L.M. DuBuske, L.N. Krikunova, Indicators of quality of canned milk: Russian and international priorities, Foods and Raw Mater. 5(2), 151–161 (2017) [CrossRef] [Google Scholar]
  • J. Woollard, C.B. Schmitz, A.E. Freeman, C. K. Tuggle, Rapid communication: HinfI polymorphism at the bovine Pit-1 locus J. of Anim. Sci. 72, 3267 (1994) [CrossRef] [Google Scholar]
  • A. Dybus, W. Grzesiak, H. Kamieniecki, I. Szatkowska, Z. Sobek, P. Blaszczyk, E. Czerniawska-Piatkowska, S. Zych, M. Muszynska, Association of genetic variants of bovine prolactin with milk production traits of Black-and-White and Jersey cattle Arch. Tierz. 48(2), 149–156 (2005) [Google Scholar]
  • D.F. Gordon, D.P. Quick, C.R. Erwin, J.E. Donelson, R.A. Maurer, Nucleotide sequence of the bovine growth hormone chromosomal gene Mol. Cell. Endocrinol. 33, 81–95 (1983) [CrossRef] [PubMed] [Google Scholar]

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