Your search keyword '"Abdelmanova A"' showing total 152 results

1. Selective footprints and genes relevant to cold adaptation and other phenotypic traits are unscrambled in the genomes of divergently selected chicken breeds

Author

Romanov, Michael N., Abdelmanova, Alexandra S., Fisinin, Vladimir I., Gladyr, Elena A., Volkova, Natalia A., Koshkina, Olga A., Rodionov, Andrey N., Vetokh, Anastasia N., Gusev, Igor V., Anshakov, Dmitry V., Stanishevskaya, Olga I., Dotsev, Arsen V., Griffin, Darren K., and Zinovieva, Natalia A.

Published

2023

2. Tracing the Dynamical Genetic Diversity Changes of Russian Livni Pigs during the Last 50 Years with the Museum, Old, and Modern Samples

Author

Alexandra A. Abdelmanova, Tatiana E. Deniskova, Veronika R. Kharzinova, Roman Yu Chinarov, Oksana I. Boronetskaya, Johann Sölkner, Gottfried Brem, Huashui Ai, Lusheng Huang, Vladimir I. Trukhachev, and Natalia A. Zinovieva

Subjects

pig, Livni breed, ancient DNA, genetic diversity, population structure, single nucleotide polymorphism, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The pig industry is usually considered an intensive livestock industry, mainly supported by hybrid breeding between commercial pig breeds. However, people’s pursuit of a more natural environment and higher meat quality has led to an increasing demand for eco-friendly and diverse pig feeding systems. Therefore, the importance of rearing and conserving local pig breeds is increasing. The Livni pig is a local breed with good adaptability to the environmental and fodder conditions in central Russia. In this study, we aimed to analyze the genetic diversity and population structure of Livni pigs using whole-genome single nucleotide polymorphism (SNP) data. We utilized the Porcine GGP HD BeadChip on genotype samples from old (n = 32, 2004) and modern (n = 32, 2019) populations of Livni pigs. For the museum samples of Livni pigs (n = 3), we extracted DNA from their teeth, performed genomic sequencing, and obtained SNP genotypes from the whole-genome sequences. SNP genotypes of Landrace (n = 32) and Large White (n = 32) pigs were included for comparative analysis. We observed that the allelic richness of Livni pigs was higher than those of Landrace and Large White pigs (AR = 1.775–1.798 vs. 1.703 and 1.668, respectively). The effective population size estimates (NE5 = 108 for Livni pigs, NE5 = 59 for Landrace and Large White pigs) confirmed their genetic diversity tendency. This was further supported by the length and number of runs of homozygosity, as well as the genomic inbreeding coefficient (almost twofold lower in Livni pigs compared to Landrace and Large White pigs). These findings suggest that the Livni pig population exhibits higher genetic diversity and experiences lower selection pressure compared to commercial pig populations. Furthermore, both principal component and network tree analyses demonstrated a clear differentiation between Livni pigs and transboundary commercial pigs. The TreeMix results indicated gene flow from Landrace ancestors to Livni pigs (2019) and from Large White ancestors to Livni pigs (2004), which was consistent with their respective historical breeding backgrounds. The comparative analysis of museum, old, and modern Livni pigs indicated that the modern Livni pig populations have preserved their historical genomic components, suggesting their potential suitability for future design selection programs.

Published

2024

3. Whole-Genomic Studies of the Population Structure of Russian Local Black-Pied Breeds

Author

Abdelmanova, A. S., Sermyagin, A. A., Dotsev, A. V., Rodionov, A. N., Stolpovsky, Yu. A., and Zinovieva, N. A.

Published

2022

4. Genotyping-by-Sequencing Strategy for Integrating Genomic Structure, Diversity and Performance of Various Japanese Quail (Coturnix japonica) Breeds

Author

Natalia A. Volkova, Michael N. Romanov, Alexandra S. Abdelmanova, Polina V. Larionova, Nadezhda Yu. German, Anastasia N. Vetokh, Alexey V. Shakhin, Ludmila A. Volkova, Dmitry V. Anshakov, Vladimir I. Fisinin, Valeriy G. Narushin, Darren K. Griffin, Johann Sölkner, Gottfried Brem, John C. McEwan, Rudiger Brauning, and Natalia A. Zinovieva

Subjects

genotyping-by-sequencing, genetic diversity, genomic structure, phylogeny, performance, Japanese quail, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Traces of long-term artificial selection can be detected in genomes of domesticated birds via whole-genome screening using single-nucleotide polymorphism (SNP) markers. This study thus examined putative genomic regions under selection that are relevant to the development history, divergence and phylogeny among Japanese quails of various breeds and utility types. We sampled 99 birds from eight breeds (11% of the global gene pool) of egg (Japanese, English White, English Black, Tuxedo and Manchurian Golden), meat (Texas White and Pharaoh) and dual-purpose (Estonian) types. The genotyping-by-sequencing analysis was performed for the first time in domestic quails, providing 62,935 SNPs. Using principal component analysis, Neighbor-Net and Admixture algorithms, the studied breeds were characterized according to their genomic architecture, ancestry and direction of selective breeding. Japanese and Pharaoh breeds had the smallest number and length of homozygous segments indicating a lower selective pressure. Tuxedo and Texas White breeds showed the highest values of these indicators and genomic inbreeding suggesting a greater homozygosity. We revealed evidence for the integration of genomic and performance data, and our findings are applicable for elucidating the history of creation and genomic variability in quail breeds that, in turn, will be useful for future breeding improvement strategies.

Published

2023

5. Whole Genome Screening Procures a Holistic Hold of the Russian Chicken Gene Pool Heritage and Demographic History

Author

Michael N. Romanov, Alexandra S. Abdelmanova, Vladimir I. Fisinin, Elena A. Gladyr, Natalia A. Volkova, Dmitry V. Anshakov, Olga I. Stanishevskaya, Anatoly B. Vakhrameev, Arsen V. Dotsev, Darren K. Griffin, and Natalia A. Zinovieva

Subjects

chicken, Russian gene pool breeds, SNPs, whole genome screening, genetic diversity, phylogenetic relationships, Biology (General), QH301-705.5

Abstract

A study for genomic variation that may reflect putative selective signaling and be associated with economically important traits is instrumental for obtaining information about demographic and selection history in domestic animal species and populations. A rich variety of the Russian chicken gene pool breeds warrants a further detailed study. Specifically, their genomic features can derive implications from their genome architecture and selective footprints for their subsequent breeding and practical efficient exploitation. In the present work, whole genome genotyping of 19 chicken breeds (20 populations with up to 71 samples each) was performed using the Chicken 50 K BeadChip DNA chip. The studied breed sample included six native Russian breeds of chickens developed in the 17th–19th centuries, as well as eight Russian chicken breeds, including the Russian White (RW), created in the 20th century on the basis of improving local chickens using breeds of foreign selection. Five specialized foreign breeds of chickens, including the White Leghorn (WL), were used along with other breeds representing the Russian gene pool. The characteristics of the genetic diversity and phylogenetic relationships of the native breeds of chickens were represented in comparison with foreign breeds. It was established that the studied native breeds demonstrate their own genetic structure that distinguishes them from foreign breeds, and from each other. For example, we previously made an assumption on what could cause the differences between two RW populations, RW1 and RW2. From the data obtained here, it was verified that WL was additionally crossed to RW2, unlike RW1. Thus, inherently, RW1 is a purer population of this improved Russian breed. A significant contribution of the gene pool of native breeds to the global genetic diversity of chickens was shown. In general, based on the results of a multilateral survey of this sample of breeds, it can be concluded that phylogenetic relationships based on their genetic structure and variability robustly reflect the known, previously postulated and newly discovered patterns of evolution of native chickens. The results herein presented will aid selection and breeding work using this gene pool.

Published

2023

6. Genetic Diversity in the Orenburg Goat Breed Revealed by Single-Nucleotide Polymorphism (SNP) Analysis: Initial Steps in Saving a Threatened Population.

Author

Deniskova, Tatiana E., Dotsev, Arsen V., Abdelmanova, Alexandra S., Petrov, Sergey N., Frolov, Alexey N., Platonov, Stanislav A., Gladyr, Elena A., Gusev, Igor V., Selionova, Marina I., Rodionov, Andrey N., Lebedev, Svyatoslav V., Griffin, Darren K., Romanov, Michael N., and Zinovieva, Natalia A.

Subjects

SINGLE nucleotide polymorphisms, GENETIC variation, LIVESTOCK breeds, OUTCROSSING (Biology), ANIMAL breeders, GOAT breeds

Abstract

Background/Objectives: Orenburg goats are renowned for their soft down that acts as a substrate for warm clothing, particularly shawls that have an international reputation. As with many local livestock breeds, however, the Orenburg is presently at risk of extinction, an issue that can be addressed by assessing population genetic diversity and, thereafter, encouraging as much outbreeding as possible. Using single-nucleotide polymorphism (SNP)-based data, therefore, we analyzed the genetic diversity and population structure of modern Orenburg goats using samples collected from an expedition to Orenburg Oblast in 2024. Methods: We applied the Goat SNP50 BeadChip (Illumina, San Diego, CA, USA) for the genotyping of Orenburg goats from modern and archived populations. SNP genotypes of three Orenburg populations sampled in 2017 and 2019, Altai Mountain, Altai White, and Soviet Mohair breeds, were added to the dataset. Results: Principal component analysis and network and admixture analyses demonstrated that the genetic background inherent to the archived group of Orenburg goats was maintained in all modern populations. Values of genetic diversity indicators in modern populations were compatible with those obtained in comparison groups. Runs of homozygosity (ROH) were found in all the Orenburg goat populations (with a mean ROH length of 72.6–108.9 Mb and mean ROH number of 28–36). Genomic inbreeding based on ROH was low in all the Orenburg populations (FROH = 0.03–0.045). Conclusions: We showed that the ancestral background is retained in present-day Orenburg goats sampled in 2024. We provide the genetic basis through which certain breeder animals may be selected and bred traditionally or ex situ through a conservation program of gamete preservation. [ABSTRACT FROM AUTHOR]

Published

2024

7. Genome-Wide Association Study Reveals the Genetic Architecture of Growth and Meat Production Traits in a Chicken F2 Resource Population.

Author

Volkova, Natalia A., Romanov, Michael N., Vetokh, Anastasia N., Larionova, Polina V., Volkova, Ludmila A., Abdelmanova, Alexandra S., Sermyagin, Alexander A., Griffin, Darren K., and Zinovieva, Natalia A.

Abstract

Background/Objectives: For genomic selection to enhance the efficiency of broiler production, finding SNPs and candidate genes that define the manifestation of main selected traits is essential. We conducted a genome-wide association study (GWAS) for growth and meat productivity traits of roosters from a chicken F2 resource population (n = 152). Methods: The population was obtained by crossing two breeds with contrasting phenotypes for performance indicators, i.e., Russian White (slow-growing) and Cornish White (fast-growing). The birds were genotyped using the Illumina Chicken 60K SNP iSelect BeadChip. After LD filtering of the data, 54,188 SNPs were employed for the GWAS analysis that allowed us to reveal significant specific associations for phenotypic traits of interest and economic importance. Results: At the threshold value of p < 9.2 × 10−7, 83 SNPs associated with body weight at the age of 28, 42, and 63 days were identified, as well as 171 SNPs associated with meat qualities (average daily gain, slaughter yield, and dressed carcass weight and its components). Moreover, 34 SNPs were associated with a group of three or more traits, including 15 SNPs significant for a group of growth traits and 5 SNPs for a group of meat productivity indicators. Relevant to these detected SNPs, nine prioritized candidate genes associated with the studied traits were revealed, including WNT2, DEPTOR, PPA2, UNC80, DDX51, PAPPA, SSC4D, PTPRU, and TLK2. Conclusions: The found SNPs and candidate genes can serve as genetic markers for growth and meat performance characteristics in chicken breeding in order to achieve genetic improvement in broiler production. [ABSTRACT FROM AUTHOR]

Published

2024

8. Genome-wide association study revealed putative SNPs and candidate genes associated with growth and meat traits in Japanese quail

Author

Volkova, Natalia A., Romanov, Michael N., Abdelmanova, Alexandra S., Larionova, Polina V., German, Nadezhda Yu., Vetokh, Anastasia N., Shakhin, Alexey V., Volkova, Ludmila A., Anshakov, Dmitry V., Fisinin, Vladimir I., Griffin, Darren K., Sölkner, Johann, Brem, Gottfried, McEwan, John C., Brauning, Rudiger, Zinovieva, Natalia A., Volkova, Natalia A., Romanov, Michael N., Abdelmanova, Alexandra S., Larionova, Polina V., German, Nadezhda Yu., Vetokh, Anastasia N., Shakhin, Alexey V., Volkova, Ludmila A., Anshakov, Dmitry V., Fisinin, Vladimir I., Griffin, Darren K., Sölkner, Johann, Brem, Gottfried, McEwan, John C., Brauning, Rudiger, and Zinovieva, Natalia A.

Abstract

The search for SNPs and candidate genes that determine the manifestation of major selected traits is one crucial objective for genomic selection aimed at increasing poultry production efficiency. Here, we report a genome-wide association study (GWAS) for traits characterizing meat performance in the domestic quail. A total of 146 males from an F 2 reference population resulting from crossing a fast (Japanese) and a slow (Texas White) growing breed were examined. Using the genotyping-by-sequencing technique, genomic data were obtained for 115,743 SNPs (92,618 SNPs after quality control) that were employed in this GWAS. The results identified significant SNPs associated with the following traits at 8 weeks of age: body weight (nine SNPs), daily body weight gain (eight SNPs), dressed weight (33 SNPs), and weights of breast (18 SNPs), thigh (eight SNPs), and drumstick (three SNPs). Also, 12 SNPs and five candidate genes (GNAL, DNAJC6, LEPR, SPAG9, and SLC27A4) shared associations with three or more traits. These findings are consistent with the understanding of the genetic complexity of body weight-related traits in quail. The identified SNPs and genes can be used in effective quail breeding as molecular genetic markers for growth and meat characteristics for the purpose of genetic improvement.

Published

2024

9. Dissecting selective signatures and candidate genes in grandparent lines subject to high selection pressure for broiler production and in a local Russian chicken breed of Ushanka

Author

Romanov, Michael N., Shakhin, Alexey V., Abdelmanova, Alexandra S., Volkova, Natalia A., Efimov, Dmitry N., Fisinin, Vladimir I., Korshunova, Liudmila G., Anshakov, Dmitry V., Dotsev, Arsen V., Griffin, Darren K., Zinovieva, Natalia A., Romanov, Michael N., Shakhin, Alexey V., Abdelmanova, Alexandra S., Volkova, Natalia A., Efimov, Dmitry N., Fisinin, Vladimir I., Korshunova, Liudmila G., Anshakov, Dmitry V., Dotsev, Arsen V., Griffin, Darren K., and Zinovieva, Natalia A.

Abstract

Breeding improvements and quantitative trait genetics are essential to the advancement of broiler production. The impact of artificial selection on genomic architecture and the genetic markers sought remains a key area of research. Here, we used whole-genome resequencing data to analyze the genomic architecture, diversity, and selective sweeps in Cornish White (CRW) and Plymouth Rock White (PRW) transboundary breeds selected for meat production and, comparatively, in an aboriginal Russian breed of Ushanka (USH). Reads were aligned to the reference genome bGalGal1.mat.broiler.GRCg7b and filtered to remove PCR duplicates and low-quality reads using BWA-MEM2 and bcftools software; 12,563,892 SNPs were produced for subsequent analyses. Compared to CRW and PRW, USH had a lower diversity and a higher genetic distinctiveness. Selective sweep regions and corresponding candidate genes were examined based on ZFST, hapFLK, and ROH assessment procedures. Twenty-seven prioritized chicken genes and the functional projection from human homologs suggest their importance for selection signals in the studied breeds. These genes have a functional relationship with such trait categories as body weight, muscles, fat metabolism and deposition, reproduction, etc., mainly aligned with the QTLs in the sweep regions. This information is pivotal for further executing genomic selection to enhance phenotypic traits.

Published

2024

10. Assessing Genetic Diversity and Searching for Selection Signatures by Comparison between the Indigenous Livni and Duroc Breeds in Local Livestock of the Central Region of Russia

Author

Irina Chernukha, Alexandra Abdelmanova, Elena Kotenkova, Veronika Kharzinova, and Natalia A. Zinovieva

Subjects

Livni breed, animal genetic resources, SNPs, inbreeding, adaptation, traits, Biology (General), QH301-705.5

Abstract

Indigenous pig breeds are mainly associated with the adaptive capacity that is necessary to respond adequately to climate change, food security, and livelihood needs, and natural resources conservation. Livni pigs are an indigenous fat-type breed farmed in a single farm in the Orel region and located in the Central European part of the Russian Federation. To determine the genomic regions and genes that are affected by artificial selection, we conducted the comparative study of two pig breeds with different breeding histories and breeding objectives, i.e., the native fat-type Livni and meat-type Duroc breeds using the Porcine GGP HD BeadChip, which contains ~80,000 SNPs. To check the Livni pigs for possible admixture, the Landrace and the Large White breeds were included into the study of genetic diversity as these breeds participated in the formation of the Livni pigs. We observed the highest level of genetic diversity in Livni pigs compared to commercial breeds (UHE = 0.409 vs. 0.319–0.359, p < 0.001; AR = 1.995 vs. 1.894–1.964, p < 0.001). A slight excess of heterozygotes was found in all of the breeds. We identified 291 candidate genes, which were localized within the regions under putative selection, including 22 and 228 genes, which were specific for Livni and Duroc breeds, respectively, and 41 genes common for both breeds. A detailed analysis of the molecular functions identified the genes, which were related to the formation of meat and fat traits, and adaptation to environmental stress, including extreme temperatures, which were different between breeds. Our research results are useful for conservation and sustainable breeding of Livni breed, which shows a high level of genetic diversity. This makes Livni one of the valuable national pig genetic resources.

Published

2022

11. Genome-Wide Screening for SNPs Associated with Stature in Diverse Cattle Breeds

Author

Alexandra S. Abdelmanova, Alexander A. Sermyagin, Arsen V. Dotsev, Nikolay V. Bardukov, Margaret S. Fornara, Gottfried Brem, and Natalia A. Zinovieva

Subjects

local cattle, GWAS, SNP, QTL, stature, allele frequency, Biology (General), QH301-705.5

Abstract

Cattle breeds used in industrial production tend to be larger than local cattle, as increased dairy and beef productivity is closely related to stature. This study aimed to identify single nucleotide polymorphisms (SNPs) significantly associated with stature in diverse cattle breeds. Thirteen local and transboundary cattle breeds (n = 670) were divided into two groups according to their stature. The high-stature group included the Angus, Ayrshire, Black-and-White, Holstein, Kholmogor, Yaroslavl, Tagil, and Istoben breeds. The low-stature group included Jersey, Kalmyk, Kyrgyz, Mongolian, and Yakut. The average height at withers was 136.3 ± 1.6 and 121.6 ± 2.8 cm in the high- and low-stature groups, respectively. The samples of the 11 breeds were genotyped using high-density DNA arrays. Genotypes of the two remaining breeds were downloaded from the publicly available WIDDE database. Genome-wide association studies revealed seven SNPs strongly associated with stature, including three at 77.3–77.8 cM on BTA4 and four at 24.5–25.2 cM on BTA14. Functional annotation showed the localization within identified regions of genes responsible for growth, exterior characteristics, protein and lipid metabolism, and feed intake. The identified SNPs can be considered useful DNA markers for marker-assisted cattle breeding aimed at increasing stature.

Published

2022

12. Investigation of the Genetic Diversity of Dagestan Mountain Cattle Using STR-Markers

Author

Valeria V. Volkova, Alexandra S. Abdelmanova, Tatiana E. Deniskova, Olga S. Romanenkova, Abdusalam A. Khozhokov, Alimsoltan A. Ozdemirov, Alexander A. Sermyagin, and Natalia A. Zinovieva

Subjects

cattle, local breeds, STR-markers, population structure, Biology (General), QH301-705.5

Abstract

The Dagestan Mountain (DM) cattle breed was established to provide cheese and milk products to mountain dwellers in the specific conditions of the Republic of Dagestan in Southern Russia. Only 650 head of DM cattle were registered in 2020, and their “breed purity” is questionable. We aimed to assess the genetic diversity and population structure of modern DM cattle using short tandem repeat (STR) markers. The sample included 150 animals collected from private owners in Dagestan during a scientific expedition (n = 32) and provided by a gene pool farm (n = 118). An additional 166 samples from other cattle breeds distributed in the breeding zone of DM cattle were used as the comparison groups. The genotypes for the 11 STR loci recommended by ISAG were obtained using a genetic analyzer. We identified a high level of genetic diversity as revealed by allelic richness calculations (Ar = 6.82 vs. 4.38–5.82 in other cattle breeds) and observed heterozygosity indices (uHe = 0.76 vs. 0.65–0.72). Based on the STRUCTURE results, animals with low levels of admixture with other breeds were found within the DM cattle, which can be considered as candidates for use in germplasm conservation programs.

Published

2022

13. Genotyping-by-Sequencing Strategy for Integrating Genomic Structure, Diversity and Performance of Various Japanese Quail (Coturnix japonica) Breeds

Author

Volkova, Natalia A., primary, Romanov, Michael N., additional, Abdelmanova, Alexandra S., additional, Larionova, Polina V., additional, German, Nadezhda Yu., additional, Vetokh, Anastasia N., additional, Shakhin, Alexey V., additional, Volkova, Ludmila A., additional, Anshakov, Dmitry V., additional, Fisinin, Vladimir I., additional, Narushin, Valeriy G., additional, Griffin, Darren K., additional, Sölkner, Johann, additional, Brem, Gottfried, additional, McEwan, John C., additional, Brauning, Rudiger, additional, and Zinovieva, Natalia A., additional

Published

2023

14. Study of Genetic Diversity of Dagestan Mountain Cattle Based on STR-Markers

Author

Valeria Volkova, Tatiana Deniskova, Alexandra Abdelmanova, Olga Romanenkova, Abdusalam Khozhokov, Alexander Sermyagin, and Natalia Zinovieva

Subjects

Dagestan Mountain cattle, STR markers, allele frequency, Plant ecology, QK900-989, Animal biochemistry, QP501-801, Biology (General), QH301-705.5

Abstract

Cheap pasture fodder and a long grazing season are favorable for cattle breeding in the Dagestan Republic of Russia. However, specific natural and geographical conditions, including mountain terrain, hypoxia, and high humidity slow down the intensification of cattle breeding in this region. Thus, the maintenance of genetic diversity of local cattle breeds, which fits well into specific environments, is of special importance for mountain ethnic communities. Dagestan Mountain cattle have valuable biological traits, including strong hooves, stamina, and adaptability to extreme mountain conditions. This sample included 32 individuals of Dagestan Mountain cattle collected from private owners in the mountain villages of Dagestan during a scientific expedition. We observed a high level of genetic diversity in Dagestan Mountain cattle, as revealed by calculations of the mean number of alleles per locus (6.82 compared to 4.79–5.82 in other breeds) and observed heterozygosity indices (Ho = 0.73, which was higher compared to the other breeds (Ho = 0.69) excluding Simmentals and Brown Swiss (Ho = 0.74). Based on STRUCTURE results, the individuals with a low level of admixture with other breeds were found within Dagestan Mountain cattle, which can be considered as candidates for using conservation programs in germplasms.

Published

2022

15. Tracing the Dynamical Genetic Diversity Changes of Russian Livni Pigs during the Last 50 Years with the Museum, Old, and Modern Samples.

Author

Abdelmanova, Alexandra A., Deniskova, Tatiana E., Kharzinova, Veronika R., Chinarov, Roman Yu, Boronetskaya, Oksana I., Sölkner, Johann, Brem, Gottfried, Ai, Huashui, Huang, Lusheng, Trukhachev, Vladimir I., and Zinovieva, Natalia A.

Subjects

CATTLE genetics, GENETIC variation, SWINE, SINGLE nucleotide polymorphisms, WHOLE genome sequencing, GENE flow

Abstract

Simple Summary: Simple Summary: Local breeds of pigs often do not require special housing and feeding conditions. This makes it possible to obtain high-quality meat products under eco-friendly conditions. The Livni breed is a local Russian pig breed, which is the only one adapted to pasture-based housing and produces pork of excellent quality in environmentally friendly conditions. We evaluated the genetic diversity of the Livni breed in comparison with the Large White and Landrace breeds and investigated changes in the Livni breed populations' structure over the period from the 1970s to the present, using whole-genome single nucleotide polymorphisms. Both the museum and modern Livni pig populations are characterized by higher genetic diversity and were subject to less selection pressure than commercial pig populations. Present-day populations of the Livni pigs have retained their historical genomic components despite the use of commercial breeds in breeding efforts. This suggests their potential suitability for future breeding programs. The pig industry is usually considered an intensive livestock industry, mainly supported by hybrid breeding between commercial pig breeds. However, people's pursuit of a more natural environment and higher meat quality has led to an increasing demand for eco-friendly and diverse pig feeding systems. Therefore, the importance of rearing and conserving local pig breeds is increasing. The Livni pig is a local breed with good adaptability to the environmental and fodder conditions in central Russia. In this study, we aimed to analyze the genetic diversity and population structure of Livni pigs using whole-genome single nucleotide polymorphism (SNP) data. We utilized the Porcine GGP HD BeadChip on genotype samples from old (n = 32, 2004) and modern (n = 32, 2019) populations of Livni pigs. For the museum samples of Livni pigs (n = 3), we extracted DNA from their teeth, performed genomic sequencing, and obtained SNP genotypes from the whole-genome sequences. SNP genotypes of Landrace (n = 32) and Large White (n = 32) pigs were included for comparative analysis. We observed that the allelic richness of Livni pigs was higher than those of Landrace and Large White pigs (AR = 1.775–1.798 vs. 1.703 and 1.668, respectively). The effective population size estimates (NE5 = 108 for Livni pigs, NE5 = 59 for Landrace and Large White pigs) confirmed their genetic diversity tendency. This was further supported by the length and number of runs of homozygosity, as well as the genomic inbreeding coefficient (almost twofold lower in Livni pigs compared to Landrace and Large White pigs). These findings suggest that the Livni pig population exhibits higher genetic diversity and experiences lower selection pressure compared to commercial pig populations. Furthermore, both principal component and network tree analyses demonstrated a clear differentiation between Livni pigs and transboundary commercial pigs. The TreeMix results indicated gene flow from Landrace ancestors to Livni pigs (2019) and from Large White ancestors to Livni pigs (2004), which was consistent with their respective historical breeding backgrounds. The comparative analysis of museum, old, and modern Livni pigs indicated that the modern Livni pig populations have preserved their historical genomic components, suggesting their potential suitability for future design selection programs. [ABSTRACT FROM AUTHOR]

Published

2024

16. Combination of Multiple Microsatellite Analysis and Genome-Wide SNP Genotyping Helps to Solve Wildlife Crime: A Case Study of Poaching of a Caucasian tur (Capra caucasica) in Russian Mountain National Park

Author

Andrey Rodionov, Tatiana Deniskova, Arsen Dotsev, Valeria Volkova, Sergey Petrov, Veronika Kharzinova, Olga Koshkina, Alexandra Abdelmanova, Anastasia Solovieva, Alexey Shakhin, Nikolay Bardukov, and Natalia Zinovieva

Subjects

poaching, wild goat, single-nucleotide polymorphisms, microsatellites, evidence, DNA typing, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Poaching is one of the major types of wildlife crime in Russia. Remnants of goats (presumably the wild endemic species, the Caucasian tur) were found in an area of the Caucasian mountains. The case study involves a suspected poacher whose vehicle was found to have two duffel bags containing pieces of a carcass, which he claimed was that of a goat from his flock. The aim of the forensic genetic analysis for this case was to (i) establish individual identity and (ii) perform species identification. DNA typing based on fourteen microsatellites revealed that STR-genotypes generated from pieces of evidence found at crime scene fully matched those obtained from the evidence seized from the suspect. The results of genome-wide SNP-genotyping, using Illumina Goat SNP50 BeadChip, provided evidence that the poached animal was a wild Caucasian tur (Capra caucasica). Thus, based on comprehensive molecular genetic analysis, evidence of poaching was obtained and sent to local authorities. To our knowledge, this case study is the first to attempt to use DNA chips in wildlife forensics of ungulates.

Published

2021

17. Selection signatures in two oldest Russian native cattle breeds revealed using high-density single nucleotide polymorphism analysis.

Author

Natalia Anatolievna Zinovieva, Arsen Vladimirovich Dotsev, Alexander Alexandrovich Sermyagin, Tatiana Evgenievna Deniskova, Alexandra Sergeevna Abdelmanova, Veronika Ruslanovna Kharzinova, Johann Sölkner, Henry Reyer, Klaus Wimmers, and Gottfried Brem

Subjects

Medicine, Science

Abstract

Native cattle breeds can carry specific signatures of selection reflecting their adaptation to the local environmental conditions and response to the breeding strategy used. In this study, we comprehensively analysed high-density single nucleotide polymorphism (SNP) genotypes to characterise the population structure and detect the selection signatures in Russian native Yaroslavl and Kholmogor dairy cattle breeds, which have been little influenced by introgression with transboundary breeds. Fifty-six samples of pedigree-recorded purebred animals, originating from different breeding farms and representing different sire lines, of the two studied breeds were genotyped using a genome-wide bovine genotyping array (Bovine HD BeadChip). Three statistical analyses-calculation of fixation index (FST) for each SNP for the comparison of the pairs of breeds, hapFLK analysis, and estimation of the runs of homozygosity (ROH) islands shared in more than 50% of animals-were combined for detecting the selection signatures in the genome of the studied cattle breeds. We confirmed nine and six known regions under putative selection in the genomes of Yaroslavl and Kholmogor cattle, respectively; the flanking positions of most of these regions were elucidated. Only two of the selected regions (localised on BTA 14 at 24.4-25.1 Mbp and on BTA 16 at 42.5-43.5 Mb) overlapped in Yaroslavl, Kholmogor and Holstein breeds. In addition, we detected three novel selection sweeps in the genome of Yaroslavl (BTA 4 at 4.74-5.36 Mbp, BTA 15 at 17.80-18.77 Mbp, and BTA 17 at 45.59-45.61 Mbp) and Kholmogor breeds (BTA 12 at 82.40-81.69 Mbp, BTA 15 at 16.04-16.62 Mbp, and BTA 18 at 0.19-1.46 Mbp) by using at least two of the above-mentioned methods. We expanded the list of candidate genes associated with the selected genomic regions and performed their functional annotation. We discussed the possible involvement of the identified candidate genes in artificial selection in connection with the origin and development of the breeds. Our findings on the Yaroslavl and Kholmogor breeds obtained using high-density SNP genotyping and three different statistical methods allowed the detection of novel putative genomic regions and candidate genes that might be under selection. These results might be useful for the sustainable development and conservation of these two oldest Russian native cattle breeds.

Published

2020

18. Unveiling Comparative Genomic Trajectories of Selection and Key Candidate Genes in Egg-Type Russian White and Meat-Type White Cornish Chickens

Author

Alexandra S. Abdelmanova, Arsen V. Dotsev, Michael N. Romanov, Olga I. Stanishevskaya, Elena A. Gladyr, Andrey N. Rodionov, Anastasia N. Vetokh, Natalia A. Volkova, Elena S. Fedorova, Igor V. Gusev, Darren K. Griffin, Gottfried Brem, and Natalia A. Zinovieva

Subjects

selection signatures, genomic regions, candidate genes, gene ontology, gene richness, chicken, Biology (General), QH301-705.5

Abstract

Comparison of genomic footprints in chicken breeds with different selection history is a powerful tool in elucidating genomic regions that have been targeted by recent and more ancient selection. In the present work, we aimed at examining and comparing the trajectories of artificial selection in the genomes of the native egg-type Russian White (RW) and meat-type White Cornish (WC) breeds. Combining three different statistics (top 0.1% SNP by FST value at pairwise breed comparison, hapFLK analysis, and identification of ROH island shared by more than 50% of individuals), we detected 45 genomic regions under putative selection including 11 selective sweep regions, which were detected by at least two different methods. Four of such regions were breed-specific for each of RW breed (on GGA1, GGA5, GGA8, and GGA9) and WC breed (on GGA1, GGA5, GGA8, and GGA28), while three remaining regions on GGA2 (two sweeps) and GGA3 were common for both breeds. Most of identified genomic regions overlapped with known QTLs and/or candidate genes including those for body temperatures, egg productivity, and feed intake in RW chickens and those for growth, meat and carcass traits, and feed efficiency in WC chickens. These findings were concordant with the breed origin and history of their artificial selection. We determined a set of 188 prioritized candidate genes retrieved from the 11 overlapped regions of putative selection and reviewed their functions relative to phenotypic traits of interest in the two breeds. One of the RW-specific sweep regions harbored the known domestication gene, TSHR. Gene ontology and functional annotation analysis provided additional insight into a functional coherence of genes in the sweep regions. We also showed a greater candidate gene richness on microchromosomes relative to macrochromosomes in these genomic areas. Our results on the selection history of RW and WC chickens and their key candidate genes under selection serve as a profound information for further conservation of their genomic diversity and efficient breeding.

Published

2021

19. Comparative Study of the Genetic Diversity of Local Steppe Cattle Breeds from Russia, Kazakhstan and Kyrgyzstan by Microsatellite Analysis of Museum and Modern Samples

Author

Alexandra S. Abdelmanova, Veronika R. Kharzinova, Valeria V. Volkova, Arsen V. Dotsev, Alexander A. Sermyagin, Oksana I. Boronetskaya, Roman Yu. Chinarov, Evgeniya M. Lutshikhina, Johann Sölkner, Gottfried Brem, and Natalia A. Zinovieva

Subjects

cattle, Kalmyk cattle, Kyrgyz cattle, Kazakh cattle, Kazakh white-headed breed, historical specimens, Biology (General), QH301-705.5

Abstract

The comparative molecular genetic study of museum and modern representatives of cattle breeds can help to elucidate the origin and maintenance of historical genetic components in modern populations. We generated the consensus genotypes for 11 microsatellite loci for 24 museum samples of Kalmyk, Kyrgyz, and Kazakh cattle, dated from the first quarter of the 20th century, and compared them with those of modern Kalmyk, Kyrgyz, and Kazakh white-headed breeds. The level of genetic diversity of the modern Kalmyk and Kyrgyz cattle (uHe = 0.771–0.778) was similar to those observed in the museum samples (uHe = 0.772–0.776), while a visible decrease in genetic variability in the modern Kazakh white-headed breed compared to museum Kazakh cattle was detected (uHe = 0.726 and 0.767, respectively). The PCA plot, FST- and Jost’s D-based networks, and STRUCTURE clustering provided strong evidence of the maintenance of the historical genetic background in modern populations of Kalmyk and Kyrgyz cattle. In spite of the allele pool of Kazakh white-headed cattle having undergone great changes compared to the museum Kazakh cattle, several animals still carry the visible aspect of the historical genetic components. Our results can be used for the selection of individuals for the creation of gene banks and may significantly improve the efficiency of conservation programs aimed at preserving genetic diversity in the national genetic resources of cattle.

Published

2021

20. Genotyping-by-sequencing strategy for integrating genomic structure, diversity and performance of various Japanese quail (Coturnix japonica) breeds

Author

Volkova, Natalia A., Romanov, Michael N., Abdelmanova, Alexandra S., Larionova, Polina V., German, Nadezhda Yu., Vetokh, Anastasia N., Shakhin, Alexey V., Volkova, Ludmila A., Anshakov, Dmitry V., Fisinin, Vladimir I., Narushin, Valeriy G., Griffin, Darren K., Sölkner, Johann, Brem, Gottfried, McEwan, John C., Brauning, Rudiger, Zinovieva, Natalia A., Volkova, Natalia A., Romanov, Michael N., Abdelmanova, Alexandra S., Larionova, Polina V., German, Nadezhda Yu., Vetokh, Anastasia N., Shakhin, Alexey V., Volkova, Ludmila A., Anshakov, Dmitry V., Fisinin, Vladimir I., Narushin, Valeriy G., Griffin, Darren K., Sölkner, Johann, Brem, Gottfried, McEwan, John C., Brauning, Rudiger, and Zinovieva, Natalia A.

Abstract

Simple Summary: Artificial selection has been applied to domesticated birds for many decades. More recently, this selection has made use of so-called single-nucleotide polymorphism (SNP) markers—simple variants in a DNA sequence. These SNPs can be used for whole-genome screening to detect the unique traces of areas of the genome that are subject to selection. Doing this may help to shed light on the evolutionary and family history (phylogeny) of domestic Japanese quails of different breeds and utility types (e.g., egg, meat or dual-purpose breeds). In this study, 99 birds were used, representing eight breeds (11% of the world’s quail gene pool) and various purposes of use to gather genetic (whole-genome) data in the first-ever analysis of its kind performed on domestic quails. We thereby uncovered evolutionary relationships and points of divergence of individual quail breeds, gleaning important insights into the genetic diversity of domestic quail breeds and their future breeding potential. Abstract: Traces of long-term artificial selection can be detected in genomes of domesticated birds via whole-genome screening using single-nucleotide polymorphism (SNP) markers. This study thus examined putative genomic regions under selection that are relevant to the development history, divergence and phylogeny among Japanese quails of various breeds and utility types. We sampled 99 birds from eight breeds (11% of the global gene pool) of egg (Japanese, English White, English Black, Tuxedo and Manchurian Golden), meat (Texas White and Pharaoh) and dual-purpose (Estonian) types. The genotyping-by-sequencing analysis was performed for the first time in domestic quails, providing 62,935 SNPs. Using principal component analysis, Neighbor-Net and Admixture algorithms, the studied breeds were characterized according to their genomic architecture, ancestry and direction of selective breeding. Japanese and Pharaoh breeds had the smallest number and length of homozygous segments indica

Published

2023

21. Whole genome screening procures a holistic hold of the Russian chicken gene pool heritage and demographic history

Author

Romanov, Michael N., Abdelmanova, Alexandra S., Fisinin, Vladimir I., Gladyr, Elena A., Volkova, Natalia A., Anshakov, Dmitry V., Stanishevskaya, Olga I., Vakhrameev, Anatoly B., Dotsev, Arsen V., Griffin, Darren K., Zinovieva, Natalia A., Romanov, Michael N., Abdelmanova, Alexandra S., Fisinin, Vladimir I., Gladyr, Elena A., Volkova, Natalia A., Anshakov, Dmitry V., Stanishevskaya, Olga I., Vakhrameev, Anatoly B., Dotsev, Arsen V., Griffin, Darren K., and Zinovieva, Natalia A.

Abstract

Simple Summary: A collection of native farm animal breeds can be considered as a gene pool and a national heritage. Long-term artificial selection in domesticated animals has certain effects on their genomes, which can be investigated using genome-wide screens for DNA sequence variation, that is, so-called single nucleotide polymorphism (SNP) screens. Here, we looked at the genomes of 19 Russian chicken gene pool breeds, both native and imported, evaluating the contrasting egg, meat and dual-purpose types. Based on genetic diversity statistics, we identified differences between the breeds using many DNA markers (SNPs) that may represent genomic regions that are being selected for, either within a specific breed or shared between breeds. Our research will be helpful for further understanding the genomic diversity and demographic history of Russian domestic chickens. This would be essential for their successful breeding. Abstract: A study for genomic variation that may reflect putative selective signaling and be associated with economically important traits is instrumental for obtaining information about demographic and selection history in domestic animal species and populations. A rich variety of the Russian chicken gene pool breeds warrants a further detailed study. Specifically, their genomic features can derive implications from their genome architecture and selective footprints for their subsequent breeding and practical efficient exploitation. In the present work, whole genome genotyping of 19 chicken breeds (20 populations with up to 71 samples each) was performed using the Chicken 50 K BeadChip DNA chip. The studied breed sample included six native Russian breeds of chickens developed in the 17th–19th centuries, as well as eight Russian chicken breeds, including the Russian White (RW), created in the 20th century on the basis of improving local chickens using breeds of foreign selection. Five specialized foreign breeds of chickens, including the White Leghorn

Published

2023

22. Assessing Genetic Diversity and Searching for Selection Signatures by Comparison between the Indigenous Livni and Duroc Breeds in Local Livestock of the Central Region of Russia

Author

Chernukha, Irina, primary, Abdelmanova, Alexandra, additional, Kotenkova, Elena, additional, Kharzinova, Veronika, additional, and Zinovieva, Natalia, additional

Published

2022

23. Identification of Genomic Regions and Candidate Genes Associated with Body Weight and Body Conformation Traits in Karachai Goats

Author

Ahmed A. Easa, Marina Selionova, Magomet Aibazov, Tatiana Mamontova, Alexander Sermyagin, Anna Belous, Alexandra Abdelmanova, Tatiana Deniskova, and Natalia Zinovieva

Subjects

Lipopolysaccharides, Goats, Body Weight, Fatty Acids, Genetics, Animals, Genomics, GWAS, SNP, QTL, candidate genes, Karachai goats, Genetics (clinical), Genome-Wide Association Study, Apolipoproteins B

Abstract

The objective of this study was to identify the SNPs and candidate genes related to body weight and seven body conformation traits at the age of 8 months in the Russian aboriginal Karachai goats (n = 269) by conducting genome-wide association studies (GWAS), using genotypes generated by Goat SNP BeadChip (Illumina Inc., USA). We identified 241 SNPs, which were significantly associated with the studied traits, including 47 genome-wide SNPs (p < 10−5) and 194 suggestive SNPs (p < 10−4), distributed among all goat autosomes except for autosome 23. Fifty-six SNPs were common for two and more traits (1 SNP for six traits, 2 SNPs for five traits, 12 SNPs for four traits, 20 SNPs for three traits, and 21 SNPs for two traits), while 185 SNPs were associated with single traits. Structural annotation within a window of 0.4 Mb (±0.2 Mb from causal SNPs) revealed 238 candidate genes. The largest number of candidate genes was identified at Chr13 (33 candidate genes for the five traits). The genes identified in our study were previously reported to be associated with growth-related traits in different livestock species. The most significant genes for body weight were CRADD, HMGA2, MSRB3, MAX, HACL1 and RAB15, which regulate growth processes, body sizes, fat deposition, and average daily gains. Among them, the HMGA2 gene is a well-known candidate for prenatal and early postnatal development, and the MSRB3 gene is proposed as a candidate gene affecting the growth performance. APOB, PTPRK, BCAR1, AOAH and ASAH1 genes associated with withers height, rump height and body length, are involved in various metabolic processes, including fatty acid metabolism and lipopolysaccharide catabolism. In addition, WDR70, ZBTB24, ADIPOQ, and SORCS3 genes were linked to chest width. KCNG4 was associated with rump height, body length and chest perimeter. The identified candidate genes can be proposed as molecular markers for growth trait selection for genetic improvement in Karachai goats.

Published

2022

24. Genomic inbreeding of cows of the Yaroslavskaya breed

Author

A. I. Mishina and A. S. Abdelmanova

Subjects

Animal science, Biology, Inbreeding, Breed

Published

2021

25. Identification of Genomic Regions and Candidate Genes Associated with Body Weight and Body Conformation Traits in Karachai Goats

Author

Easa, Ahmed A., primary, Selionova, Marina, additional, Aibazov, Magomet, additional, Mamontova, Tatiana, additional, Sermyagin, Alexander, additional, Belous, Anna, additional, Abdelmanova, Alexandra, additional, Deniskova, Tatiana, additional, and Zinovieva, Natalia, additional

Published

2022

26. Genome-Wide Screening for SNPs Associated with Stature in Diverse Cattle Breeds

Author

Abdelmanova, Alexandra S., primary, Sermyagin, Alexander A., additional, Dotsev, Arsen V., additional, Bardukov, Nikolay V., additional, Fornara, Margaret S., additional, Brem, Gottfried, additional, and Zinovieva, Natalia A., additional

Published

2022

27. Investigation of the Genetic Diversity of Dagestan Mountain Cattle Using STR-Markers

Author

Volkova, Valeria V., primary, Abdelmanova, Alexandra S., additional, Deniskova, Tatiana E., additional, Romanenkova, Olga S., additional, Khozhokov, Abdusalam A., additional, Ozdemirov, Alimsoltan A., additional, Sermyagin, Alexander A., additional, and Zinovieva, Natalia A., additional

Published

2022

28. Study of Genetic Diversity of Dagestan Mountain Cattle Based on STR-Markers

Author

Volkova, Valeria, primary, Deniskova, Tatiana, additional, Abdelmanova, Alexandra, additional, Romanenkova, Olga, additional, Khozhokov, Abdusalam, additional, Sermyagin, Alexander, additional, and Zinovieva, Natalia, additional

Published

2022

29. PSXII-1 Tracing the historical genetic components in turano-mongolian cattle breeds based on the microsatellite analysis of modern and museum samples

Author

Alexandra S Abdelmanova, Alexander A Sermyagin, Natalia A Zinovieva, V. R. Kharzinova, Arsen V Dotsev, Oxana Boronetskaya, Roman Chinarov, Gottfried Brem, and V. V. Volkova

Subjects

Poster Presentations, Geography, biology, Evolutionary biology, Microsatellite Analysis, Genetics, Animal Science and Zoology, General Medicine, Tracing, biology.organism_classification, Mongolian cattle, Food Science

Abstract

In their centuries-long history, the nomads of the south of Russia developed the local cattle breeds, which are well adapted to the harsh steppe conditions. In 20th century, the population size of such cattle breeds was dramatically decreased. At the same time, intensive cross breeding with high-producing transboundary breeds had been practiced on the small remaining part of population. The aim of our study was to trace the historical genetic components in modern populations of local cattle breeds of the turano-mongolian origin. The historical specimens of Kalmyk (n = 10), Kyrgyz (n = 11) and Kazakh (n = 3) cattle dated by the first quarter of the 20th century were derived from the craniological collection of the E.F. Liskun Museum for Animal Husbandry and subjected to the study. The modern representatives of Kalmyk (n = 28), Kyrgyz (n = 20), Kazakh White-headed (n = 30), Hereford (n = 26), and Mongolian (n = 41) cattle were used for comparison. All works with historical samples were performed in dedicated facility of the L.K. Ernst research Center for Animal Husbandry. The samples were genotyped for 11 microsatellite loci (BM1818, BM2113, BM1824, ETH10, ETH225, INRA023, SPS115, TGLA53, TGLA122, TGLA126, and TGLA227). For historical samples, the PCR reactions were carried out in five replicates to determine the consensus genotypes. In total, 132 alleles were identified, including 97 alleles in historical samples and 124 alleles in modern samples. The values of unbiased expected heterozygosity were 0.767–0.776 and 0.653–0.778 for the historical and modern samples, respectively. The STRUCTURE clustering showed the visible differences in genetic structure between the historical and modern populations of Kalmyk, Kyrgyz and Kazakh cattle breeds; however, the historical genetic components were still maintained in modern representatives of all of studied breeds. The research results will be useful for the sustainable breeding and conservation of valuable local genetic resources. The study was funded by the RSF No. 19-76-20012.

Published

2021

30. PSXVI-17 Estimation of inbreeding in local sheep breeds of west Asian and central Asian origin based on high-density SNP-genotypes

Author

Gottfried Brem, M.I. Selionova, Alexandra S Abdelmanova, Henry Reyer, Eugenia Lushihina, Arsen V Dotsev, Asankadyr Zhunushev, Natalia A Zinovieva, T.E. Deniskova, and Klaus Wimmers

Subjects

Asian origin, Estimation, Poster Presentations, Veterinary medicine, Genotype, Genetics, High density, SNP, Animal Science and Zoology, General Medicine, Biology, Inbreeding, Food Science

Abstract

Maintaining high levels of genetic diversity is a key factor of successful breeding of resilient, resistant to diseases and productive sheep. Prevention of inbreeding is of special importance in the mountainous hard-to-get habitats where gene flow is limited or absent. An assessment of inbreeding coefficients based only on pedigree information is not always correct. In addition, pedigree information is often missing for flocks of native sheep. In this regard, we performed a genomic assessment of inbreeding in 15 local sheep breeds inhabiting severe environments of Russia and neighboring Asian countries based on estimations of standardized multilocus heterozygosity (sMLH) and runs of homozygosity [F(ROH)]. For this study, we used SNP genotypes of twelve Russian local breeds (n = 316) and three Kyrgyz local breeds (n = 68), which were generated using Ovine Infinium® HD SNP BeadChip (Illumina, CA, USA). The sMLH values were calculated using R package inbreedR and visualized in R package ggplot2. The F(ROH) values were calculated using the R package detectRUNS by applying the consecutive runs method. Mean sMLH values were varied from 0.962 ± 0.006 in the Andean breed to 1.031 ± 0.002 in the Buryat breed and averaged to 1.001± 0.004. The least mean F(ROH) value was detected in the Mongolian breed (0.0043 ± 0.0009) while the greatest ones were observed in the Alai and Andean breeds (0.0364 ± 0.0049 and 0.0357 ± 0.0061, respectively). The strong negative correlations between sMLH and F(ROH) were detected for all of studied breeds (r2 = –0.8496, CI = –0.8752… –0.8192). The obtained data is relevant for control of inbreeding level in the populations and for future sustainable management of native fat-tailed sheep breeds. The study was funded by RSF No. 19-16-00070.

Published

2021

31. COMPARATIVE STUDY OF THE GENOMIC ARCHITECTURE OF MODERN AND HISTORICAL SAMPLES OF TWO RUSSIAN CATTLE BREEDS

Author

Alexander A Sermyagin, Arina I Mishina, Alexandra S Abdelmanova, Arsen V Dotsev, R.Yu. Chinarov, V. R. Kharzinova, and Oxana Boronetskaya

Subjects

Geography, Evolutionary biology, Genomic architecture, General Medicine

Abstract

Based on the analysis of genome-wide SNP genotypes, a study of the genetic diversity and genetic structure of modern and historical samples of cattle of the Kholmogor and Yaroslavl breeds was performed. The preservation of historical genomic components in modern representatives of breeds is shown.

Published

2021

32. Unveiling comparative genomic trajectories of selection and key candidate genes in egg-type Russian White and meat-type White Cornish chickens

Author

Elena S. Fedorova, Darren K. Griffin, Natalia A. Volkova, Anastasia N Vetokh, Igor V. Gusev, Michael N Romanov, Olga I. Stanishevskaya, Arsen V Dotsev, Gottfried Brem, Andrey N. Rodionov, Natalia A Zinovieva, Alexandra S Abdelmanova, and E. A. Gladyr

Subjects

Candidate gene, QH301-705.5, chicken, QH75, Single-nucleotide polymorphism, Biology, White Cornish breed, selection signatures, Article, General Biochemistry, Genetics and Molecular Biology, SF, genomic regions, Biology (General), Domestication, gene richness, QH426, Selection (genetic algorithm), General Immunology and Microbiology, Phenotypic trait, Breed, candidate genes, gene ontology, SNPs, Russian White breed, Evolutionary biology, Microchromosome, General Agricultural and Biological Sciences, Selective sweep

Abstract

Simple Summary: The search for genomic regions of putative selective signaling is instrumental in obtaining information about selection history in various species and populations. Domestic animals are subject to long-term artificial selection that leaves certain footprints in their genomes one can explore using genome-wide SNP screen. We examined here genomes of two contrasting chicken breeds, the native egg-type Russian White and meat-type White Cornish. Using three statistics, we identified genomic regions under putative selection, both breed-specific and shared between two breeds, that harbor key candidate genes for economically important traits. Our findings will be useful in further understanding selection history and genomic diversity in domestic chickens that would be pivotal in their productive breeding.\ud Abstract: Comparison of genomic footprints in chicken breeds with different selection history is a powerful tool in elucidating genomic regions that have been targeted by recent and more ancient selection. In the present work, we aimed at examining and comparing the trajectories of artificial selection in the genomes of the native egg-type Russian White (RW) and meat-type White Cornish (WC) breeds. Combining three different statistics (top 0.1% SNP by FST value at pairwise breed comparison, hapFLK analysis, and identification of ROH island shared by more than 50% of individuals), we detected 45 genomic regions under putative selection including 11 selective sweep regions, which were detected by at least two different methods. Four of such regions were breed-specific for each of RW breed (on GGA1, GGA5, GGA8, and GGA9) and WC breed (on GGA1, GGA5, GGA8, and GGA28), while three remaining regions on GGA2 (two sweeps) and GGA3 were common for both breeds. Most of identified genomic regions overlapped with known QTLs and/or candidate genes including those for body temperatures, egg productivity, and feed intake in RW chickens and those for growth, meat and carcass traits, and feed efficiency in WC chickens. These findings were concordant with the breed origin and history of their artificial selection. We determined a set of 188 prioritized candidate genes retrieved from the 11 overlapped regions of putative selection and reviewed their functions relative to phenotypic traits of interest in the two breeds. One of the RW-specific sweep regions harbored the known domestication gene, TSHR. Gene ontology and functional annotation analysis provided additional insight into a functional coherence of genes in the sweep regions. We also showed a greater candidate gene richness on microchromosomes relative to macrochromosomes in these genomic areas. Our results on the selection history of RW and WC chickens and their key candidate genes under selection serve as a profound information for further conservation of their genomic diversity and efficient breeding.

Published

2021

33. Combination of Multiple Microsatellite Analysis and Genome-Wide SNP Genotyping Helps to Solve Wildlife Crime: A Case Study of Poaching of a Caucasian tur (Capra caucasica) in Russian Mountain National Park

Author

Rodionov, Andrey, primary, Deniskova, Tatiana, additional, Dotsev, Arsen, additional, Volkova, Valeria, additional, Petrov, Sergey, additional, Kharzinova, Veronika, additional, Koshkina, Olga, additional, Abdelmanova, Alexandra, additional, Solovieva, Anastasia, additional, Shakhin, Alexey, additional, Bardukov, Nikolay, additional, and Zinovieva, Natalia, additional

Published

2021

34. PSXV-10 Study of allelic pattern of PLAG1 gene in the historical and modern populations of two oldest Russian dairy cattle breeds

Author

Abdelmanova, Alexandra S, primary, Kharzinova, Veronika R, additional, Dotsev, Arsen V, additional, Sermyagin, Alexander A, additional, Boronetskaya, Oxana, additional, Chinarov, Roman, additional, Brem, Gottfried, additional, and Zinovieva, Natalia A, additional

Published

2021

35. PSI-B-25 Assessment of the genetic resources of Russian local cattle breeds by genome-wide SNP analysis

Author

Abdelmanova, Alexandra S, primary, Dotsev, Arsen V, additional, Sermyagin, Alexander A, additional, Brem, Gottfried, additional, and Zinovieva, Natalia A, additional

Published

2021

36. PSXIV-26 Selection footprints in Russian red cattle identified by linkage disequilibrium blocks based on SNP data

Author

Sermyagin, Alexander A, primary, Dotsev, Arsen V, additional, Abdelmanova, Alexandra S, additional, Sölkner, Johann, additional, and Zinovieva, Natalia A, additional

Published

2021

37. PSXII-1 Tracing the historical genetic components in turano-mongolian cattle breeds based on the microsatellite analysis of modern and museum samples

Author

Abdelmanova, Alexandra S, primary, Kharzinova, Veronika R, additional, Volkova, Valeria, additional, Dotsev, Arsen V, additional, Sermyagin, Alexander A, additional, Boronetskaya, Oxana, additional, Chinarov, Roman, additional, Brem, Gottfried, additional, and Zinovieva, Natalia A, additional

Published

2021

38. PSI-B-20 A scan for signatures of selection in Russian Romanov sheep breed based on ROH hot spots analysis

Author

Deniskova, Tatiana E, primary, Abdelmanova, Alexandra S, additional, Dotsev, Arsen V, additional, Koshkina, Olga, additional, Rodionov, Andrey, additional, Brem, Gottfried, additional, and Zinovieva, Natalia A, additional

Published

2021

39. PSXVI-17 Estimation of inbreeding in local sheep breeds of west Asian and central Asian origin based on high-density SNP-genotypes

Author

Deniskova, Tatiana E, primary, Abdelmanova, Alexandra S, additional, Dotsev, Arsen V, additional, Lushihina, Eugenia, additional, Zhunushev, Asankadyr, additional, Reyer, Henry, additional, Selionova, Marina I, additional, Wimmers, Klaus, additional, Brem, Gottfried, additional, and Zinovieva, Natalia A, additional

Published

2021

40. PSI-B-23 Assessment of genomic inbreeding in Russian local and commercial dairy breeds of cattle

Author

Mishina, Arina I, primary, Abdelmanova, Alexandra S, additional, Dotsev, Arsen V, additional, Sermyagin, Alexander A, additional, Brem, Gottfried, additional, and Zinovieva, Natalia A, additional

Published

2021

41. Genome-wide SNP analysis clearly distinguished the Belarusian Red cattle from other European cattle breeds

Author

V. R. Kharzinova, Arsen V Dotsev, M. E. Mikhailova, Johann Sölkner, Alexander A Sermyagin, I P Sheiko, Klaus Wimmers, Natalia A Zinovieva, R I Sheiko, N V Pleshanov, Gottfried Brem, Alexandra S Abdelmanova, and Henry Reyer

Subjects

0301 basic medicine, Heterozygote, Genotype, Republic of Belarus, Population, Zoology, Single-nucleotide polymorphism, Biology, Breeding, Polymorphism, Single Nucleotide, 03 medical and health sciences, Genetics, Animals, Genetic variability, education, Genetic diversity, education.field_of_study, 0402 animal and dairy science, 04 agricultural and veterinary sciences, General Medicine, 040201 dairy & animal science, Breed, Pedigree, 030104 developmental biology, Genetics, Population, Animal Science and Zoology, Cattle, Brown Swiss, SNP array

Abstract

Local breeds can serve as an important source of genetic variability in domestic animal species. This study aimed to assess the genetic diversity and population structure of Belarusian Red cattle and their differentiation from other European cattle populations based on genome-wide SNP genotypes. Twenty pedigree-recorded non-closely related cows of Belarusian Red cattle were genotyped using the Illumina BovineHD BeadChip. Genotypes of 22 other European cattle breeds were included in the study for comparison. A total of 28 562 SNPs passed through the quality control checks and were selected for analysis. The Belarusian Red cattle displayed a moderate level of genetic variability (U HE = 0.341, HO = 0.368), and the highest heterozygote excess (U FIS = -0.066), among the studied breeds; this reflects the contribution of multiple breeds to their formation. The principal component analysis, FST -based Neighbor-Net tree and Admixture clustering, clearly distinguished the Belarusian Red cattle from the other European cattle breeds. Moreover, the presence of ancestral genomic components of Danish Red and Brown Swiss breeds were clearly visible, which agrees with the breed's history and its recent development. Our study highlights the importance of maintaining the specific genomic components, which makes a significant contribution to the global genetic diversity in the modern population of Belarusian Red cattle, allowing us to consider them a valuable national genetic resource. Our research results will be useful for the development of conservation programs for this local cattle breed.

Published

2021

42. PSXV-10 Study of allelic pattern of PLAG1 gene in the historical and modern populations of two oldest Russian dairy cattle breeds

Author

Alexandra S Abdelmanova, Arsen V Dotsev, Alexander A Sermyagin, Gottfried Brem, Natalia A Zinovieva, Oxana Boronetskaya, V. R. Kharzinova, and Roman Chinarov

Subjects

PLAG1 gene, Genetics, Zoology, Animal Science and Zoology, General Medicine, Biology, Allele, Dairy cattle, Food Science

Abstract

Increasing animal stature is one of the goals of modern breeding programs for many dairy cattle breeds, because stature related to higher milk yield. The PLAG1 gene was shown to be a strong candidate responsible for stature in different cattle breeds. The polymorphic SNP BovineHD1400007259, located within PLAG1 gene, is considered as a causal mutation responsible for stature. The aim of our work was to evaluate the effect of long selection for the increased body height on the alterations of the allele’s frequencies of the PLAG1 gene in the historical and modern populations of the Russian Yaroslavl and Kholmogor dairy cattle breeds. The historical specimens of Yaroslavl (n = 22) and Kholmogor (n = 12) cattle dated by the first quarter of the 20th century were derived from the craniological collection of the E.F. Liskun Museum for Animal Husbandry. The modern representatives of Yaroslavl (n = 31) and Kholmogor (n = 25) breeds were used for comparison. All works with historical samples were performed in dedicated facility of the L.K. Ernst Research Center for Animal Husbandry. The samples were genotyped using high-density DNA arrays (Illumina Inc., USA). The historical DNA was treated by USER enzyme before genotyping to avoid the misincoporated nucleotides occurred due to postmortem DNA damage. We observed significant differences in allele frequencies of PLAG1 genes between historical and modern populations of both breeds. The frequencies of G allele, which is associated with higher stature, were increased from 0.114 in historical Yaroslavl cattle and from 0.167 in historical Kholmogor cattle to 0.633 and 0.860 in the modern breeds’ representatives, respectively. Our data suggest that PLAG1 gene was affected by artificial selection in studied cattle breeds. The research results will be useful for elucidation of the history of these two oldest Russian dairy cattle breeds. The study was funded by the RSF No. 21-66-00007.

Published

2021

43. PSXIV-26 Selection footprints in Russian red cattle identified by linkage disequilibrium blocks based on SNP data

Author

Alexandra S Abdelmanova, Arsen V Dotsev, Natalia A Zinovieva, Alexander A Sermyagin, and Johann Sölkner

Subjects

Snp data, Linkage disequilibrium, Evolutionary biology, Genetics, Animal Science and Zoology, General Medicine, Biology, Selection (genetic algorithm), Food Science

Abstract

Among the variety of cattle breeds in Russia, the Russian red dual-purpose cattle breeds have great importance because of their ability to produce high milk yields as well as to provide excellent milk quality. The low census size of the Russian red cattle breeds requires development of programs for conservation of their biodiversity. Our study aimed to investigate selection footprints in Russian red cattle breeds, using high values of linkage disequilibrium (LD) in SNP haplotype blocks as indicators. For finding such LD blocks, we used the genotypes (≈35K SNPs) of Red Gorbatov (RGB, n = 26), Bestuzhev (BST,n = 27), and Suksun (SKS,n = 17) breeds, as well as Red Holstein (RH,n = 16) as an outgroup. Quality control and LD calculations for different distances were performed in Plink 1.90. Top 0.01% SNP pairs by LD value (0.9≤r2< 1.0) were selected for further analysis. The effective population size derived from LD patterns was estimated using SNeP tool. Comparison of LD values for 70 kb interval between breeds and chromosomes by MANOVA pairwise testing significantly distinguished RH/RGB and BST/SKS breeds (P < 0.05-0.001). LD values among chromosomes were 0.195–0.287 for RH, 0.194–0.272 for RGB, 0.172–0.237 for BST, and 0.157–0.217 for SKS. The SKS and BST breeds had higher Ne values (84 and 113, respectively) compared to RH (63) and RGB (79). Selection footprints by LD blocks in Russian red cattle genome covered several relevant genes on BTA1 (EPHA6,DGKG), BTA2 (LRP1B,THSD7B,STAT1), BTA5 (CPM,BAIAP2L2), BTA9 (TRDN,UTRN), BTA10 (KCNN2,CAPN3), BTA11 (SH3RF3,RABGAP1,RALGPS1), BTA14 (ZNF16,ARHGAP39,TOX,DGAT1), and BTA19 (MYH10), BTA22 (FHIT). Detected genes were found to be responsible for milk fat and protein contents, fatty acid composition, somatic cells score, fertility, feet and legs, and udder conformation traits. Our results can be useful for developing the breeding and conservation programs of the Russian red cattle genetic resources. The study was funded by RFBR within project No. 20-516-00020

Published

2021

44. PSI-B-23 Assessment of genomic inbreeding in Russian local and commercial dairy breeds of cattle

Author

Natalia A Zinovieva, Arsen V Dotsev, Alexandra S Abdelmanova, Arina I Mishina, Alexander A Sermyagin, and Gottfried Brem

Subjects

Poster Presentations, Veterinary medicine, Genetics, Animal Science and Zoology, General Medicine, Biology, Inbreeding, Food Science

Abstract

Drastic decline of population size of Russian local cattle breeds observed during last three decades has led to the decrease of genetic diversity. Due to the limited number of bulls used for artificial insemination, inbreeding in herds can be increased, which can lead to the decrease of reproduction capacity and adaptability of animals. Our aim was to assess genomic inbreeding in two Russian local cattle breeds, including Kholmogor (n = 26) and Istoben (n = 21). Two transboundary cattle breeds used for milk production in Russia including Holstein (n = 49) and Simmental (n = 38) were chosen for comparison. SNP genotyping was performed using the Bovine GGP 150K BeadArray (Illumina, CA, USA). After the quality control, 117591 autosomal SNPs were selected for analyzes. The degree of genomic inbreeding was assessed by calculations of inbreeding coefficient based on run of homozygosity (F(ROH)) and multilocus heterozygosity (sMLH). We found the strong negative correlations between the F(ROH) and sMLH values in animals of all of studied breeds (r2 = -0.805). The average F(ROH) values were 0.065 < mo >±< /mo >< /math >“>±± 0.003 for Kholmogor, 0.048 < mo >±< /mo >< /math >“>±± 0.006 for Istoben, 0.129 < mo >±< /mo >< /math >“>±± 0.007 for Holstein, and 0.102 < mo >±< /mo >< /math >“>±± 0.007 for Simmental breed. The sMLH values in Kholmogor, Istoben, Holstein and Simmental breeds varied from 0,99 to 1,076, from 0,829 to 1,102, from 0,890 to 1,069 and from 0,866 to 1,041, and averaged to 1.030, 1.013, 1.000, and 0.974, respectively. According to our research results, two studied Russian cattle breeds are characterized by lower levels of genomic inbreeding compared to transboundary cattle breeds. Our results will be helpful for developing the conservation programs for Russian Kholmogor and Istoben cattle breeds. The study was funded by the Russian Ministry of Science and Higher Education within theme No. 0445-2019-0024 and RFBR within project 19-316-90017 (the study of Kholmogor cattle).

Published

2021

45. Analysis of Genetic Diversity of Kazakh White-Headed Cattle Breed by Microsatellites Compare with Ancestral Breeds †

Author

Gottfried Brem, Arsen V Dotsev, Oxana Boronetskaya, V. V. Volkova, Alexander A Sermyagin, V. R. Kharzinova, N.A. Zinovieva, Alexandra S Abdelmanova, and Roman Chinarov

Subjects

education.field_of_study, Genetic diversity, Population, Zoology, Kazakh, Biology, Beef cattle, Breed, language.human_language, Genotype, Genetic structure, language, Microsatellite, education

Abstract

Kazakh White-headed is the local beef cattle breed, which is bred in Central Asia countries. It was created in the beginning of 20 century by improving native Kazakh cattle by Hereford breed. The aim of our work was to characterize the genetic structure and to trace the presence of ancestral genetic components in the modern population of Kazakh White-headed cattle. The samples of modern representatives of Kazakh White-headed (KZWH_M, n=29) and Hereford (HRFD_M, n=25) breeds as well as historical specimens of native Kazakh breed (KZKH_H, n=2), dated by the first quarter of 20th century, were subjected to the study. All works with historical specimen were performed in dedicated facility of the L.K. Ernst research Centre for Animal Husbandry. DNA from modern samples was extracted using DNA Extran 2 kit (JSC Syntol, Russia) and from historical specimen – using COrDIS Extract Decalcine kit (GORDIZ LLC, Russia). We genotyped 11 microsatellite loci (BM1818, BM2113, BM1824, ETH10, ETH225, INRA023, SPS115, TGLA53, TGLA122, TGLA126, and TGLA227). For historical samples the PCR reaction were carried out in five replicates to determine the consensus genotypes for each locus. In total, we identified 82 microsatellite alleles. Five alleles, which were found in the historical specimens, were lost in the modern population of Kazakh White-headed cattle. We observed the highest level of genetic diversity (unbiased heterozygosity, allelic richness) in historical samples. The modern population of Kazakh White-headed cattle was closer to Hereford breed as was revealed by calculation of pairwise Nei and FST genetic distances. The STRUCTURE clustering confirmed the more similarity of genetic structure of modern Kazakh White-headed cattle with Herefords, but showed the visible presence the historical genetic components. The research results will be useful for developing the programs of conservation and sustainable use of Kazakh White-headed cattle.

Published

2021

46. Unveiling Comparative Genomic Trajectories of Selection and Key Candidate Genes in Egg-Type Russian White and Meat-Type White Cornish Chickens

Author

Abdelmanova, Alexandra S., primary, Dotsev, Arsen V., additional, Romanov, Michael N., additional, Stanishevskaya, Olga I., additional, Gladyr, Elena A., additional, Rodionov, Andrey N., additional, Vetokh, Anastasia N., additional, Volkova, Natalia A., additional, Fedorova, Elena S., additional, Gusev, Igor V., additional, Griffin, Darren K., additional, Brem, Gottfried, additional, and Zinovieva, Natalia A., additional

Published

2021

47. Comparative Study of the Genetic Diversity of Local Steppe Cattle Breeds from Russia, Kazakhstan and Kyrgyzstan by Microsatellite Analysis of Museum and Modern Samples

Author

Abdelmanova, Alexandra S., primary, Kharzinova, Veronika R., additional, Volkova, Valeria V., additional, Dotsev, Arsen V., additional, Sermyagin, Alexander A., additional, Boronetskaya, Oksana I., additional, Chinarov, Roman Yu., additional, Lutshikhina, Evgeniya M., additional, Sölkner, Johann, additional, Brem, Gottfried, additional, and Zinovieva, Natalia A., additional

Published

2021

48. PSXII-21 Genome-wide search for genomic regions under putative selection in two Russian native cattle breeds using high-density SNP Bead Chip

Author

Henry Reyer, Johann Sölkner, Arsen V Dotsev, Alexandra S Abdelmanova, Klaus Wimmers, T.E. Deniskova, Gottfried Brem, and Natalia A Zinovieva

Subjects

Bead (woodworking), Abstracts, Genetics, High density, SNP, Animal Science and Zoology, General Medicine, Computational biology, Biology, Chip, Genome, Selection (genetic algorithm), Food Science

Abstract

National livestock genetic resources are the valuable source of genetic variability, which are necessary to ensure the sustainability of the local animal production systems. The aim of our work was to characterize the genomic architecture and to detect signatures of selection in two oldest Russian native cattle breeds, using high-density DNA arrays. Fifty-six animals of Yaroslavl (n = 31) and Kholmogor (n = 25) were selected for the study. The Illumina Bovine HD BeadChip (777,962 SNPs) was used for genotyping. High-density SNP genotypes for Holsteins (n = 25) were used as the reference. Three methods (Fst, hapFLK, and ROH) were implemented to detect the genomic regions to be under putative selection. The results of the PCA-plot, Neighbor-Net analysis and Admixture clustering showed clear genetic differences between Yaroslavl and Kholmogor breeds as well as between them and Holsteins. Comparison of the results produced by different methods showed presence of twelve regions in genome of Yaroslavl breed and nine regions in genome of Kholmogor breeds, which were identified at least by two methods. We have confirmed nine regions under putative selection in genome of Yaroslavl cattle and six regions in genome of Kholmogor cattle, which were described previously based on medium-density SNP genotypes, herewith the flanking positions of the most of these regions were expanded. Additionally, we detected three new putative genomic regions affected by selection in each studied breed, which were localized on chromosomes 4, 15 and 17 in Yaroslavl breed and on chromosomes 12, 15 and 18 in Kholmogor breed. The functional annotation of genes localized within identified regions was carried out. Our research results can be useful for genetic improvement of the studied cattle breeds and for developing the programs for their conservation. The study was supported by RSF within project No. 19-76-20012.

Published

2020

49. PSX-25 The distribution of runs of homozygosity in nine native Russian sheep breeds

Author

Alexandra S Abdelmanova, Arsen V Dotsev, Gottfried Brem, T.E. Deniskova, Natalia A Zinovieva, Margaret S Fornara, Henry Reyer, M.I. Selionova, and Klaus Wimmers

Subjects

Abstracts, Distribution (number theory), Evolutionary biology, Genetics, Animal Science and Zoology, General Medicine, Runs of Homozygosity, Biology, Food Science

Abstract

Native coarse wool fat-tailed sheep breeds are the main producers of mutton in mountainous, steppe and semi-desert regions of Southern Russia. An assessment of homozygosity is required to prevent loss of genetic diversity and inbreeding depression onset. The aim of our work is estimation of genomic inbreeding and distribution of the runs of homozygosity (ROH) segments in Russian sheep breeds. Sample collection included Andean (n = 20), Buryat (n = 18), Buubei (n = 11), Edilbai (n = 20), Karachaev (n = 20), Kalmyk (n = 22), Karakul (n = 20), and Lezgin (n = 15) breeds. All sheep were genotyped using Ovine Infinium® HD SNP BeadChip (Illumina, USA). Quality control and raw data processing were performed in PLINK 1.9. A consecutive runs method implemented in the R package “detectRUNS” was used for estimation of ROH segments. We detected the ROH in all breeds with mean length ranging from 0.35 in Lezgin to 11.18 Mb in Karachaev. Andean had the greatest number of the ROH segments (total of 8496), while 3094 ROH segments were found in Buubei. Short ROH segments (< 2 Mb) were predominant in all breeds and varied from 96.83% in Andean to 99.87% in Buubei. The frequencies of the ROH segments of 8–16 Mb ranged from 0.03% in Karakul to 0.18% in Andean. ROH segments of 8–16 Mb did not occur in the Buubei and Lezgin breeds. The ROH segments were found on all autosomes. The largest genome coverage in the ROH was identified on OAR1, OAR 12 and OAR 20 and the lowest was accounted for OAR 17, OAR 18 and OAR 19. The values FROH ranged from 0.042 in Buubei to 0.084 in Andean. Except of Andean, no traces of long-term inbreeding were detected in local breeds. The obtained data are relevant for future sustainable management of native fat-tailed sheep breeds in Russia. The study was funded by RSF No. 19-16-00070.

Published

2020

50. PSX-18 High-density genomic description of Russian native sheep breed of the Republic of Tyva

Author

Gottfried Brem, T.E. Deniskova, Arsen V Dotsev, M.I. Selionova, Henry Reyer, Natalia A Zinovieva, Klaus Wimmers, Chechena Sambu-Khoo, Alexandra S Abdelmanova, and Margaret S Fornara

Subjects

Abstracts, Genetics, High density, Zoology, Animal Science and Zoology, General Medicine, Biology, Sheep breed, Food Science

Abstract

Tuva breed is the oldest native sheep breed in Russia with more than 2000 year-history and comes in third place by population size among coarse wool sheep. Tuva sheep produce high-quality meat as well as coarse wool to make traditional clothing in the Republic of Tyva. In present study, we aimed to evaluate genetic diversity and to establish genetic links of the Tuva breed with the other Russian coarse wool sheep to understand the origin and current status of this valuable livestock species. Twenty samples of Tuva were genotyped using Ovine Infinium® HD SNP BeadChip (Illumina, CA, USA). SNP-data were processed in PLINKv1.9, R package ‘diveRsity’ and SneP software. High-density SNP-genotypes of 10 coarse wool sheep breeds were used as comparison groups. Observed heterozygosity (Ho) and allelic richness (Ar) in Tuva breed were 0.336 and 1.884, respectively, and were practically equal to mean values estimated across all analyzed sheep breeds (Ho=0.335, Ar=1.884). All coarse wool breeds showed moderate heterozygote excess which was the highest in Tuva breed (1.6%). Effective population sizes estimated for three and five generations ago for Tuva breed (Ne3 =118 and Ne5 =179) were less than those in other breeds (Ne3 = 314 and Ne5 = 441 for Edilbai or Ne3 = 300 and Ne5 = 450 for Kalmyk) but not the lowest (Ne3 = 49 and Ne5 = 72 for Buubei). Values of historical effective population size estimated for 60 generations ago for Tuva breed was 1457 that was compatible with those obtained for other breeds (Ne60 from 586 for Buubei to 2634 for Kalmyk). Despite the obvious decrease in effective population size, levels of genetic diversity are not critical that would allow to develop programs to ensure preservation and sustainable development of Tuva breed. The study was funded by RSF No. 19-16-00070.

Published

2020