Single nucleotide polymorphism C994g of the cytochrome P450 gene possess pleiotropic eff ects in Bos taurus, L.
Date
2022
Authors
Fedota, Olena
Puzik, Nina
Skrypkina, Inessa
Babalyan, Volodymyr
Mitiohlo, Larysa
Ruban, Serhii
Belyaev, Serhii
Borshch, Oleksandr
Borshch, Oleksandr
Journal Title
Journal ISSN
Volume Title
Publisher
University of Szeged
Abstract
The chronic consumption of mycotoxin-contaminated forage tends to the weight loss of young cattle, decreasing the reproductive success of adult animals, milk yield, and tolerance to high temperatures. The aim of this paper was to study the effects of the SNP C994G in the CYP3A28 gene on the productive and reproductive characteristics of dairy and beef breeds. Cows were measured by body weight dynamics, exterior, reproduction, milk production traits, bone mineral density, bulls were analyzed estimating their progeny traits. Dairy cows received dietary betaine supplement with the measurement of homocysteine levels. Molecular genetic was performed by PCR-RFLP method. The eff ects of SNP C994G were shown in relation to the udder size, the constitution and birth weight of Abredin-Angus cows, as well as the fat and protein content of Ukrainian Red-and-White Dairy cows milk. The higher sensitivity of the GG genotype to less homocysteine level after the addition of betaine was shown. Given the identified correspondence, pleiotropic effects of CYP3A28 gene can be concluded. A microscopic analysis of forage supported the findings in relation to greater effi ciency of the CC genotype under conditions of low mycotoxins contamination, to which CYP3A28 is selective.
Description
Keywords
cattle, cytochrome P450, mycotoxin contamination, pleiotropic eff ect, single-nucleotide polymorphism (SNP)
Citation
Single nucleotide polymorphism C994g of the cytochrome P450 gene possess pleiotropic effects in Bos taurus, L. / O. Fedota, N. Puzik, I. Skrypkina, V. Babalyan, L. Mitiohlo, S. Ruban, S. Belyaev, O. O. Borshch, O. V. Borshch // Acta Biol. Szeged. — 2022. — Vol. 66, No. 1. — P. 7–15.