Population and genetic features, genomic inbriding and homozy-gosity level for black-and-white and holstein breeds by STR and SNP markers in Russia

Nedashkovsky, Igor S.; Sermyagin, A.A.; Kostyunina, Olga; Volkova, V. V.; Гладырь, Е. А.; Yanchukov, I. N.

doi:10.17072/1994-9952-2021-4-295-306

Вест. ПГУ. Биология

2021

DOI: 10.17072/1994-9952-2021-4-295-306

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Population and genetic features, genomic inbriding and homozy-gosity level for black-and-white and holstein breeds by STR and SNP markers in Russia

Igor S. Nedashkovsky¹,

A.A. Sermyagin²,

Olga Kostyunina³

et al.

Abstract: The object of the study was sires of the Black-and-White and Holstein breeds, which had STR profiles and passed the genotyping procedure for SNP markers. The subject of the study was the level of genomic inbreeding and homozygosity, as well as population-genetic characteristics based on them. With an increase in Fx based on pedigree data, an increase in the level of genomic inbreeding (FROH) calculated from SNP markers was also noted. The results for 9 STR markers record a wavelike increase in homozygosity fro… Show more

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Cited by 4 publications

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Estimated breeding value on linear assessment of exterior depending on inbreeding coefficient and the level of homozygosity

Nedashkovskiy¹,

Konte²,

Sermyagin³

2023

Agrarian Bulletin of The

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Abstract. Purpose. A study was carried out to assess the influence of the inbreeding coefficient, calculated according to the Wright – Kislovsky formula, and level of homozygosityon calculated on STR-markers the indicators of the assessment of breeding value according to the linear assessment of the exterior. Methods. The object of the study were the daughters (n = 42 245) of 355 Black-and-White and Holstein sires in the Moscow region. The calculation was made taking into account at least 10 daughters per sire. The entire data array for EBV amounted to 42076 heads of cattle, for 318 sires and was divided into four groups with respect to (Fx): the first included outbred animals (0 %), the second with Fx = 0…3.125, the third with Fx = 3.126…6.25, in the fourth with Fx ≥ 6.25, and in the fifth all animals except outbreds. For the STR calculation, the total sample was 306 sires for 39,590 daughters. So, the first group included heterozygous individuals Ca = 0 %, the second individuals with Ca = 8…50 %, the third with Ca = 55…77 %, the comparison group consisted of individuals with Ca = 8…77 %, which is on average sample 28.74 %. Results. It was noted that there was no significant difference “classic” calculation by means of gradation of the coefficient inbreeding between the studied groups of animals, with the exception of body depth, rear legs set, teat length, chest width and angularity (p ˂ 0.05... – p ˂ 0.001) according to the “B” rating system. The results of calculations by STR markers in general had similar dependencies: the angle of the hind legs in the side view from –0.055 in the first group to 0.109 in the third, the location of the front nipples from –0.129 to 0.179. The regression coefficient increased along with the minimum number of daughters per sire used in the calculations in terms rear legs set, rear udder height and udder depth. Scientific novelty. For the first time in Russia, the influence of the astimated breeding value according to the linear assessment of the conformation, depending on the coefficient of inbreeding and the level of homozygosity, calculated by STR markers, will be investigated.

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Estimated breeding value on linear assessment of exterior depending on inbreeding coefficient and the level of homozygosity

Nedashkovskiy¹,

Konte²,

Sermyagin³

2023

Agrarian Bulletin of The

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The relationship between genomic and estimated inbreeding in the population of Holstein cattle in Sverdlovsk region.

Bogatova,

Lihodeevskiy,

Lihodeevskaya

2024

Agrarian Bulletin of The

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Abstract. The purpose of this paper is to study the inbreeding change of Holstein cattle in Sverdlovsk region and to show the correlation between genomic and estimated inbreeding. Methods. The study was conducted in six farms of the Sverdlovsk region and included 512 cows and heifers with date of birth from 2007 to 2022 and 12 breeding bulls. Chips GGP Bovine 150K (Neogen, USA) and Bovine 50K (Illumina, USA) were used for genotyping. Genome inbreeding estimates F were conducted with --het function in PLINK v1.9. Homozygosity inbreeding coefficient FROH was calculated with “sliding window” package of detectRUNS; FPED was taken from SELEX database, where it was calculated by pedigrees with Wright-Kislovsky formula. Scientific novelty. The comparison of genomic inbreeding for different age groups and estimation of correlations with pedigree inbreeding was conducted in Sverdlovsk region for the first time. Results. Our studies show that inbreeding coefficients increase radically from younger to older age groups. Holstein breed bulls show the highest value of inbreeding. At the same time heterozygosity level, estimated with sMLH tends to decrease with age. In addition, a strong correlation between estimated by pedegree inbreeding FPED and date of birth, as well as weak correlations between FPED and genomic coefficients (which have strong correlations with each other) were established.

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The Influence of Bull’s Inbreeding Level on Indicators of Their Daughter’s Body Type

Konte¹,

НЕДАШКОВСКИЙ²,

Ermilov³

et al. 2022

Molochnoe I Miasnoe Skotovodstvo

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Исследованы быки голштинизированной черно-пестрой и голштинской пород, имеющие коров-дочерей в популяции скота Подмосковья. Для анализа использовали коэффициент инбридинга (Fх), рассчитанный по данным родословной, с использованием информации по четырем и более рядам предков. Для оценки влияния уровня инбридинга на показатели экстерьера дочерей использовали быков-производителей, имеющих 10 и более потомков. Общее число исследованного потомства от 318 быков-отцов составило 42076 голов крупного рогатого скота, которые были разделены на 4 группы в зависимости от уровня инбридинга. В I группу входили аутбредные животные, во II — с Fх=0,1—3,125%, в III — с Fх=3,126—6,25% и в IV — Fх≥6,26%. Проведенные расчеты по системам оценки «А» (4 признака) и «Б» (17 признаков) свидетельствуют, что животные II группы, по сравнению с III, IV (P≤0,001) и I группами, характеризуются меньшей высотой в крестце и менее глубоким туловищем, крепким телосложением (P≤0,001). Показатели коэффициента наследуемости молочного типа по системе «А» по группам от I к IV составили: 0,24; 0,29; 0,37; 0,39. Высокие коэффициенты наследуемости отмечены у группы инбредных животных относительно аутбредных по таким показателям, как вымя (0,25 и 0,19 при P<0,05), длина его передних долей (0,06 и 0,02 при P<0,001), центральная связка (0,04 и 0,02, при P<0,05) и постановка задних ног (0,29 и 0,01 при P<0,01). Исключение составили глубина туловища и высота в крестце в баллах, они снизились от 0,14 до 0,09 и от 0,32 до 0,27 соответственно. Динамика различий в коэффициентах наследуемости, как прямая, так и обратная, объясняется основными закономерностями, присущими линейной селекции, — чем выше коэффициент инбридинга, тем ближе родство и тем активнее передача наследственной информации. Bulls of the Holsteinized Black-and-White and Holstein breeds with cows-daughters in the cattle population of the Moscow region had studied. For the analysis, we used the inbreeding coefficient (Fx), calculated according to the pedigree data, using information on four or more ancestral lines. To assess the effect of inbreeding level on daughter’s exterior indicators, sires with 10 or more offspring had used. The total number of the studied offspring from 318 sires was 42,076 cattle, which had divided into 4 groups depending on the inbreeding coefficient. Group I included outbred animals, group II — with Fx=0.1—3.125%, group III — with Fx=3.126—6.25%, and IV — Fx≥6.26%. The calculations carried out according to the assessment systems "A" (4 signs) and "B" (17 signs) show that the animals of group II, compared with groups III, IV (P≤0.001) and I, are characterized by a lower stature and a less body depth, chest width (P≤0.001). The indicators of milk type heritability coefficient according to the "A" system in groups from I to IV: 0.24—0.29 and 0.37—0.39. High heritability coefficients were noted in group of inbred animals relative to outbred ones, in terms of such indicators as the udder (0.25 and 0.19 at P<0.05), length udder attachment (0.06 and 0.02 at P<0.001) , central ligament (0.04 and 0.02, at P<0.05) and rear legs rear view (0.29 and 0.01, at P<0.01). The exception was the body depth and stature in points; they decreased: 0.14; 0.09; 0.32; 0.27, respectively. The dynamics of differences in heritability coefficients, both direct and reverse, is explained by the main patterns inherent in linear selection, namely: the higher the inbreeding coefficient, the closer the relationship and the more active the transfer of hereditary information.

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Population and genetic features, genomic inbriding and homozy-gosity level for black-and-white and holstein breeds by STR and SNP markers in Russia

Cited by 4 publications

References 3 publications

Estimated breeding value on linear assessment of exterior depending on inbreeding coefficient and the level of homozygosity

Estimated breeding value on linear assessment of exterior depending on inbreeding coefficient and the level of homozygosity

The relationship between genomic and estimated inbreeding in the population of Holstein cattle in Sverdlovsk region.

The Influence of Bull’s Inbreeding Level on Indicators of Their Daughter’s Body Type

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