Your search keyword '"Aleksei Traspov"' showing total 9 results

1. Genomic and transcriptomic insights into vitamin A-induced thermogenesis and gene reuse as a cold adaptation strategy in wild boars

Author

Mingpeng Zhang, Aleksei Traspov, Jiawen Yang, Min Zheng, Veronika R. Kharzinova, Huashui Ai, Natalia A. Zinovieva, and Lusheng Huang

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Wild boars inhabit diverse climates, including frigid regions like Siberia, but their migration history and cold adaptation mechanisms into high latitudes remain poorly understood. We constructed the most comprehensive wild boar whole-genome variant dataset to date, comprising 124 samples from tropical to frigid zones, among which 47 Russian, 8 South Chinese and 3 Vietnamese wild boars were newly supplemented. We also gathered 75 high-quality RNA-seq datasets from 10 tissues of 6 wild boars from Russia and 6 from southern China. Demographic analysis revealed the appearance of Russian wild boars in Far East of Asia (RUA) and Europe (RUE) after the last glacial maximum till ~ 10 thousand years ago. Recent gene flow (

Published

2025

2. Detection of genomic regions associated malformations in newborn piglets: a machine-learning approach

Author

Siroj Bakoev, Aleksei Traspov, Lyubov Getmantseva, Anna Belous, Tatiana Karpushkina, Olga Kostyunina, Alexander Usatov, and Tatiana V. Tatarinova

Subjects

Congenital malformations, Machine learning, GWAS, Agriculture, Pigs, Medicine, Biology (General), QH301-705.5

Abstract

Background A significant proportion of perinatal losses in pigs occurs due to congenital malformations. The purpose of this study is the identification of genomic loci associated with fetal malformations in piglets. Methods The malformations were divided into two groups: associated with limb defects (piglet splay leg) and associated with other congenital anomalies found in newborn piglets. 148 Landrace and 170 Large White piglets were selected for the study. A genome-wide association study based on the gradient boosting machine algorithm was performed to identify markers associated with congenital anomalies and piglet splay leg. Results Forty-nine SNPs (23 SNPs in Landrace pigs and 26 SNPs in Large White) were associated with congenital anomalies, 22 of which were localized in genes. A total of 156 SNPs (28 SNPs in Landrace; 128 in Large White) were identified for piglet splay leg, of which 79 SNPs were localized in genes. We have demonstrated that the gradient boosting machine algorithm can identify SNPs and their combinations associated with significant selection indicators of studied malformations and productive characteristics. Data availability Genotyping and phenotyping data are available at http://www.compubioverne.group/data-and-software/.

Published

2021

3. Genetic Diversity, Admixture and Analysis of Homozygous-by-Descent (HBD) Segments of Russian Wild Boar

Author

Olga Kostyunina, Aleksei Traspov, Alexander Economov, Ivan Seryodkin, Aleksandr Senchik, Neckruz Bakoev, Yuri Prytkov, Nikolay Bardukov, Igor Domsky, and Tatiana Karpushkina

Subjects

wild boar, admixture, domestic pig, genetic diversity, Homozygous-by-Descent, Biology (General), QH301-705.5

Abstract

The wild boar is the wild ancestor of the domestic pig and one of the most common species of ungulates. At the beginning of the 20th century, the wild boar was practically exterminated in the European part of Russia. In the period 1935–1988, 7705 boars were caught in various regions of the European part of Russia, the Far East, Ukraine, Belarus, Kyrgyzstan, Kazakhstan, Latvia, Lithuania, Estonia, Tajikistan and resettled in the territory of Russia. Asian and European wild boars dwell the territory of Russia. The aim of our research was to study the genetic diversity and structure of wild boar populations in different regions of Russia using genome-wide genotyping. We have determined the genetic distances, population structure, parameters of genetic diversity and significantly expanded our understanding of the genetic state of the Russian wild boar. For the first time, we calculated autozygosity of the wild boar of the European and Asian subspecies using Homozygous-by-Descent (HBD) Segments analysis, which is important in terms of population recovery. We also found evidence of hybridization between Russian wild boar and domestic pigs. A group of European wild boars showed introgression of the Asian boar into population. The mean level of the inbreeding coefficient in European wild boar was higher than in Asian wild boar, and combined groups of the European boar had higher inbreeding coefficient than Russian wild boars. These results obtained can be used in population management.

Published

2022

4. Genome-wide SNP data unveils the globalization of domesticated pigs

Author

Bin Yang, Leilei Cui, Miguel Perez-Enciso, Aleksei Traspov, Richard P. M. A. Crooijmans, Natalia Zinovieva, Lawrence B. Schook, Alan Archibald, Kesinee Gatphayak, Christophe Knorr, Alex Triantafyllidis, Panoraia Alexandri, Gono Semiadi, Olivier Hanotte, Deodália Dias, Peter Dovč, Pekka Uimari, Laura Iacolina, Massimo Scandura, Martien A. M. Groenen, Lusheng Huang, and Hendrik-Jan Megens

Subjects

Animal culture, SF1-1100, Genetics, QH426-470

Abstract

Abstract Background Pigs were domesticated independently in Eastern and Western Eurasia early during the agricultural revolution, and have since been transported and traded across the globe. Here, we present a worldwide survey on 60K genome-wide single nucleotide polymorphism (SNP) data for 2093 pigs, including 1839 domestic pigs representing 122 local and commercial breeds, 215 wild boars, and 39 out-group suids, from Asia, Europe, America, Oceania and Africa. The aim of this study was to infer global patterns in pig domestication and diversity related to demography, migration, and selection. Results A deep phylogeographic division reflects the dichotomy between early domestication centers. In the core Eastern and Western domestication regions, Chinese pigs show differentiation between breeds due to geographic isolation, whereas this is less pronounced in European pigs. The inferred European origin of pigs in the Americas, Africa, and Australia reflects European expansion during the sixteenth to nineteenth centuries. Human-mediated introgression, which is due, in particular, to importing Chinese pigs into the UK during the eighteenth and nineteenth centuries, played an important role in the formation of modern pig breeds. Inbreeding levels vary markedly between populations, from almost no runs of homozygosity (ROH) in a number of Asian wild boar populations, to up to 20% of the genome covered by ROH in a number of Southern European breeds. Commercial populations show moderate ROH statistics. For domesticated pigs and wild boars in Asia and Europe, we identified highly differentiated loci that include candidate genes related to muscle and body development, central nervous system, reproduction, and energy balance, which are putatively under artificial selection. Conclusions Key events related to domestication, dispersal, and mixing of pigs from different regions are reflected in the 60K SNP data, including the globalization that has recently become full circle since Chinese pig breeders in the past decades started selecting Western breeds to improve local Chinese pigs. Furthermore, signatures of ongoing and past selection, acting at different times and on different genetic backgrounds, enhance our insight in the mechanism of domestication and selection. The global diversity statistics presented here highlight concerns for maintaining agrodiversity, but also provide a necessary framework for directing genetic conservation.

Published

2017

5. Correction to: Genome-wide SNP data unveils the globalization of domesticated pigs

Author

Bin Yang, Leilei Cui, Miguel Perez-Enciso, Aleksei Traspov, Richard P. M. A. Crooijmans, Natalia Zinovieva, Lawrence B. Schook, Alan Archibald, Kesinee Gatphayak, Christophe Knorr, Alex Triantafyllidis, Panoraia Alexandri, Gono Semiadi, Olivier Hanotte, Deodália Dias, Peter Dovč, Pekka Uimari, Laura Iacolina, Massimo Scandura, Martien A. M. Groenen, Lusheng Huang, and Hendrik-Jan Megens

Subjects

Animal culture, SF1-1100, Genetics, QH426-470

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020

6. Detection of genomic regions associated malformations in newborn piglets: a machine-learning approach

Author

Anna Belous, Siroj Bakoev, Alexander V. Usatov, Aleksei Traspov, O. V. Kostyunina, Tatiana V. Tatarinova, Tatiana Karpushkina, and Lyubov Getmantseva

Subjects

Limb defects, Bioinformatics, Data Mining and Machine Learning, Single-nucleotide polymorphism, Genome-wide association study, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Machine learning, Genetics, GWAS, Agricultural Science, Genotyping, 030304 developmental biology, Congenital malformations, 0303 health sciences, General Neuroscience, Computational Biology, Large white, Agriculture, General Medicine, Data availability, Medicine, Pigs, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery

Abstract

Background A significant proportion of perinatal losses in pigs occurs due to congenital malformations. The purpose of this study is the identification of genomic loci associated with fetal malformations in piglets. Methods The malformations were divided into two groups: associated with limb defects (piglet splay leg) and associated with other congenital anomalies found in newborn piglets. 148 Landrace and 170 Large White piglets were selected for the study. A genome-wide association study based on the gradient boosting machine algorithm was performed to identify markers associated with congenital anomalies and piglet splay leg. Results Forty-nine SNPs (23 SNPs in Landrace pigs and 26 SNPs in Large White) were associated with congenital anomalies, 22 of which were localized in genes. A total of 156 SNPs (28 SNPs in Landrace; 128 in Large White) were identified for piglet splay leg, of which 79 SNPs were localized in genes. We have demonstrated that the gradient boosting machine algorithm can identify SNPs and their combinations associated with significant selection indicators of studied malformations and productive characteristics. Data availability Genotyping and phenotyping data are available at http://www.compubioverne.group/data-and-software/.

Published

2021

7. Genome-wide SNP data unveils the globalization of domesticated pigs

Author

Alexander Triantafyllidis, Panoraia Alexandri, Bin Yang, Natalia A Zinovieva, Deodália Dias, Richard P. M. A. Crooijmans, Miguel Pérez-Enciso, Aleksei Traspov, Alan Archibald, Olivier Hanotte, Lawrence B. Schook, Laura Iacolina, Leilei Cui, Lusheng Huang, Kesinee Gatphayak, Christophe Knorr, Peter Dovč, Martien A. M. Groenen, Gono Semiadi, Massimo Scandura, Hendrik-Jan Megens, Pekka Uimari, Wageningen University, Agriculture Research System of China, Agro-scientific Research in the Public Interest (China), Ministerio de Economía y Competitividad (España), European Commission, Department of Agricultural Sciences, and Animal Science Research

Subjects

0301 basic medicine, Internationality, Swine, [SDV]Life Sciences [q-bio], Sus scrofa, Runs of Homozygosity, Breeding, BREEDS, ADAPTATION, 412 Animal science, dairy science, POPULATION, lcsh:SF1-1100, 2. Zero hunger, Genetics, education.field_of_study, biology, INTROGRESSION, 1184 Genetics, developmental biology, physiology, ASSOCIATION, 04 agricultural and veterinary sciences, General Medicine, Europe, Genetic structure, Inbreeding, Research Article, EXPRESSION, Asia, lcsh:QH426-470, Population, Introgression, GENETIC-STRUCTURE, Animal Breeding and Genomics, Polymorphism, Single Nucleotide, 03 medical and health sciences, Wild boar, biology.animal, REVEALS, Journal Article, Life Science, Animals, Fokkerij en Genomica, Selection, Genetic, Domestication, education, POLYMORPHISMS, Ecology, Evolution, Behavior and Systematics, 0402 animal and dairy science, Australia, Correction, 040201 dairy & animal science, DOG DOMESTICATION, lcsh:Genetics, 030104 developmental biology, Evolutionary biology, WIAS, Biological dispersal, Animal Science and Zoology, lcsh:Animal culture, Genome-Wide Association Study

Abstract

[Background]: Pigs were domesticated independently in Eastern and Western Eurasia early during the agricultural revolution, and have since been transported and traded across the globe. Here, we present a worldwide survey on 60K genome-wide single nucleotide polymorphism (SNP) data for 2093 pigs, including 1839 domestic pigs representing 122 local and commercial breeds, 215 wild boars, and 39 out-group suids, from Asia, Europe, America, Oceania and Africa. The aim of this study was to infer global patterns in pig domestication and diversity related to demography, migration, and selection., [Results]: A deep phylogeographic division reflects the dichotomy between early domestication centers. In the core Eastern and Western domestication regions, Chinese pigs show differentiation between breeds due to geographic isolation, whereas this is less pronounced in European pigs. The inferred European origin of pigs in the Americas, Africa, and Australia reflects European expansion during the sixteenth to nineteenth centuries. Human-mediated introgression, which is due, in particular, to importing Chinese pigs into the UK during the eighteenth and nineteenth centuries, played an important role in the formation of modern pig breeds. Inbreeding levels vary markedly between populations, from almost no runs of homozygosity (ROH) in a number of Asian wild boar populations, to up to 20% of the genome covered by ROH in a number of Southern European breeds. Commercial populations show moderate ROH statistics. For domesticated pigs and wild boars in Asia and Europe, we identified highly differentiated loci that include candidate genes related to muscle and body development, central nervous system, reproduction, and energy balance, which are putatively under artificial selection., [Conclusions]: Key events related to domestication, dispersal, and mixing of pigs from different regions are reflected in the 60K SNP data, including the globalization that has recently become full circle since Chinese pig breeders in the past decades started selecting Western breeds to improve local Chinese pigs. Furthermore, signatures of ongoing and past selection, acting at different times and on different genetic backgrounds, enhance our insight in the mechanism of domestication and selection. The global diversity statistics presented here highlight concerns for maintaining agrodiversity, but also provide a necessary framework for directing genetic conservation., This study is supported by National Production Technology System for the Pig Industry in China (nycytx-008) and Outstanding Talents and Innovation Team of Agricultural Science (2011-81) to LH, AGL2010-14822 and AGL2013-41834-R (Ministry of Economy and Science, Spain) to MPE. LI received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No. 656697. HJM received funding from the IMAGE project (Horizon 2020, No. 677353).

Published

2017

8. Erratum to: Population structure and genome characterization of local pig breeds in Russia, Belorussia, Kazakhstan and Ukraine

Author

Aleksei Traspov, Wenjiang Deng, Olga Kostyunina, Jiuxiu Ji, Kirill Shatokhin, Sergey Lugovoy, Natalia Zinovieva, Bin Yang, and Lusheng Huang

Subjects

Genotype, Sus scrofa, Genetic Variation, General Medicine, Genetics, Animals, Inbreeding, Genetics(clinical), Animal Science and Zoology, Europe, Eastern, Metagenomics, Erratum, Alleles, Phylogeny, Ecology, Evolution, Behavior and Systematics, Genome-Wide Association Study

Abstract

It is generally accepted that domestication of pigs took place in multiple locations across Eurasia; the breeds that originated in Europe and Asia have been well studied. However, the genetic structure of pig breeds from Russia, Belorussia, Kazakhstan and Ukraine, which represent large geographical areas and diverse climatic zones in Eurasia, remains largely unknown.This study provides the first genomic survey of 170 pigs representing 13 breeds from Russia, Belorussia, Kazakhstan and Ukraine; 288 pigs from six Chinese and seven European breeds were also included for comparison. Our findings show that the 13 novel breeds tested derived mainly from European pigs through the complex admixture of Large White, Landrace, Duroc, Hampshire and other breeds, and that they display no geographic structure based on genetic distance. We also found a considerable Asian contribution to the miniature Siberian pigs (Minisib breed) from Russia. Apart from the Minisib, Urzhum, Ukrainian Spotted Steppe and Ukrainian White Steppe breeds, which may have undergone intensive inbreeding, the breeds included in this study showed relatively high genetic diversity and low levels of homozygosity compared to the Chinese indigenous pig breeds.This study provides the first genomic overview of the population structure and genetic diversity of 13 representative pig breeds from Russia, Belorussia, Kazakhstan and Ukraine; this information will be useful for the preservation and management of these breeds.

Published

2016

9. Population structure and genome characterization of local pig breeds in Russia, Belorussia, Kazakhstan and Ukraine

Author

O. V. Kostyunina, Aleksei Traspov, Kirill Shatokhin, Sergey Lugovoy, Bin Yang, Wenjiang Deng, Lusheng Huang, Natalia A Zinovieva, Jiuxiu Ji, and Ernst Institute for Animal Husbandry

Subjects

0301 basic medicine, Steppe, [SDV]Life Sciences [q-bio], Ukrainian, Zoology, Biology, 03 medical and health sciences, Genetics, Genetics(clinical), Domestication, Ecology, Evolution, Behavior and Systematics, 2. Zero hunger, Genetic diversity, geography, geography.geographical_feature_category, 0402 animal and dairy science, 04 agricultural and veterinary sciences, General Medicine, 040201 dairy & animal science, language.human_language, Breed, 030104 developmental biology, Genetic distance, Genetic structure, language, Animal Science and Zoology, Inbreeding, Research Article

Abstract

Background It is generally accepted that domestication of pigs took place in multiple locations across Eurasia; the breeds that originated in Europe and Asia have been well studied. However, the genetic structure of pig breeds from Russia, Belorussia, Kazakhstan and Ukraine, which represent large geographical areas and diverse climatic zones in Eurasia, remains largely unknown. Results This study provides the first genomic survey of 170 pigs representing 13 breeds from Russia, Belorussia, Kazakhstan and Ukraine; 288 pigs from six Chinese and seven European breeds were also included for comparison. Our findings show that the 13 novel breeds tested derived mainly from European pigs through the complex admixture of Large White, Landrace, Duroc, Hampshire and other breeds, and that they display no geographic structure based on genetic distance. We also found a considerable Asian contribution to the miniature Siberian pigs (Minisib breed) from Russia. Apart from the Minisib, Urzhum, Ukrainian Spotted Steppe and Ukrainian White Steppe breeds, which may have undergone intensive inbreeding, the breeds included in this study showed relatively high genetic diversity and low levels of homozygosity compared to the Chinese indigenous pig breeds. Conclusions This study provides the first genomic overview of the population structure and genetic diversity of 13 representative pig breeds from Russia, Belorussia, Kazakhstan and Ukraine; this information will be useful for the preservation and management of these breeds. Electronic supplementary material The online version of this article (doi:10.1186/s12711-016-0196-y) contains supplementary material, which is available to authorized users.

Published

2016