Berry, D. P., Wall, E., & Pryce, J. E. (2014). Genetics and genomics of reproductive performance in dairy and beef cattle. Animal : an International Journal of Animal Bioscience, 8(1), 105–121.

Boichard, D., Ducrocq, V., Croiseau, P., & Fritz, S. (2016). Genomic selection in domestic animals: Principles, applications and perspectives. Comptes Rendus Biologies, 339(7–8), 274–277.

Bortolozzo, F. P., Zanin, G. P., Ulguim, R. D. R., & Mellagi, A. P. G. (2023). Managing reproduction in hyperprolific sow herds. Animals, 13(11), 1842.

Buske, B., Sternstein, I., & Brockmann, G. (2006). QTL and candidate genes for fecundity in sows. Animal Reproduction Science, 95(3–4), 167–183.

Chen, C. C., Chang, T., & Su, H. Y. (2004a). Characterization of porcine leptin receptor polymorphisms and their association with reproduction and production traits. Animal Biotechnology, 15(2), 89–102.

Chen, C. C., Chang, T., & Su, H. Y. (2004b). Genetic polymorphisms in porcine leptin gene and their association with reproduction and production traits. Australian Journal of Agricultural Research, 54(7), 699–704.

Chen, K. F., Huang, L. S., Li, N., Zhang, Q., Luo, M., & Wu, C. X. (2000). The genetic effect of estrogen receptor (ESR) on litter size traits in pig. Acta Genetica Sinica, 27(10), 853–857.

Choudhuri, S. (2014). Fundamentals of molecular evolution. In: Choudhuri, S. (Ed.). Bioinformatics for beginners. Academic Press. Pp. 27–53.

Dai, S., & Long, Y. (2015). Genotyping analysis using an RFLP assay. Methods in Molecular Biology, 1245, 91–99.

Davoudi, P., Do, D. N., Colombo, S. M., Rathgeber, B., & Miar, Y. (2022). Application of genetic, genomic and biological pathways in improvement of swine feed efficiency. Frontiers in Genetics, 13, 903733.

Distl, O. (2007). Mechanisms of regulation of litter size in pigs on the genome level. Reproduction in Domestic Animals, 42(s2), 10–16.

Drögemüller, C., Thieven, U., & Harlizius, B. (1997). An AvaI and a MspA1I polymorphism at the porcine oestrogen receptor (ESR) gene. Animal Genetics, 28(1), 59.

Fahrenkrug, S. C., Campbell, E. M., Vallet, J. L., & Rohrer, G. A. (2000). Physical assignment of the porcine erythropoietin receptor gene to SSC2. Animal Genetics, 31(1), 69–70.

Galindo-Murillo, R., & Cheatham, T. E. (2021). Ethidium bromide interactions with DNA: An exploration of a classic DNA-ligand complex with unbiased molecular dynamics simulations. Nucleic Acids Research, 49(7), 3735–3747.

Gibson, J. P., Jiang, Z. H., Robinson, J. A., Archibald, A. L., & Haley, C. S. (2002). No detectable association of the ESR PvuII mutation with sow productivity in a Meishan x Large White F2 population. Animal Genetics, 33(6), 448–450.

Hnatenko, I., Bebko, S., Ievseitseva, O., Shikovets, K., Kvita, H., & Zos-Kior, М. (2024). Market analysis of the renewable energy market of Ukraine in the context of changes in financial and economic processes. Financial and Credit Activity Problems of Theory and Practice, 5(58), 446–459.

Hong, S. T., Thi, V. N., Duy, P. P., Duc, L. D., Kim, D. P., Phuong, G. N. T., Minh, T. N. N., & Hoang, T. N. (2020). Polymorphism of candidate genes related to the number of teats, vertebrae, and ribs in pigs. Advances in Animal and Veterinary Sciences, 8(3), 229–233.

Horák, P., Urban, T., & Dvorák, J. (2005). The FUT1 and ESR genes – their variability and associations with reproduction in Prestice Black-Pied sows. Journal of Animal Breeding and Genetics, 122(3), 210–213.

Ibatullin, I. I., & Zhukorskiy, O. M. (2017). Metodolohiya ta orhanizatsiya naukovykh doslidzhen’ u tvarynnytstvi [Methodology and organization of scientific research in animal husbandry]. Agrarna Nauka, Kyiv (in Ukrainian).

Isler, B. J., Irvin, K. M., Neal, S. M., Moeller, S. J., & Davis, M. E. (2002). Examination of the relationship between the estrogen receptor gene and reproductive traits in swine. Journal of Animal Science, 80(9), 2334–2339.

Jiang, Z., Gibson, J. P., Archibald, A. L., & Haley, C. S. (2001). The porcine gonadotropin-releasing hormone receptor gene (GNRHR): Genomic organization, polymorphisms, and association with the number of corpora lutea. Genome, 44(1), 7–12.

Kamiński, S., Ruść, A., & Brym, P. (2003). Relation between Ava I polymorphism within the estrogen receptor gene (ESR) and meatiness in Polish Large White boars. Journal of Applied Genetics, 44(4), 521–524.

Khalak, V. I., Gutyj, B. V., & Bordun, O. M. (2022). Innovative methods of evaluation of sows by indicators of reproductive qualities and criteria for their selection by some multicomponent mathematical models. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies, Series: Agricultural Sciences, 24(96), 70–77.

Kirkpatrick, M., & Jarne, P. (2000). The effects of a bottleneck on inbreeding depression and the genetic load. The American Naturalist, 155(2), 154–167.

Kmieć, M., & Terman, A. (2006). Associations between the prolactin receptor gene polymorphism and reproductive traits of boars. Journal of Applied Genetics, 47(2), 139–141.

Krupa, E., Moravčíková, N., Krupová, Z., & Žáková, E. (2021). Assessment of the genetic diversity of a local pig breed using pedigree and SNP data. Genes, 12(12), 1972.

Kyryliuk, I., Kyryliuk, Y., Proshchalykina, A., Zos-Kior, М., & Dovbush, V. (2021). Organizational and economic drivers for safety provision and quality upgrading of core livestock products in Ukraine. Journal of Hygienic Engineering and Design, 36, 49–66.

Lee, J., Shin, H., Kim, J., Lee, G., & Yun, J. (2024). Large litters have a detrimental impact on litter performance and postpartum maternal behaviour in primiparous sows. Porcine Health Management, 10(1), 9.

Liang, A., Zhou, Y., Riaz, H., & Davis, J. S. (2023). Editorial: Genetic analysis of reproductive traits in livestock. Frontiers in Genetics, 13, 1116038.

Ma, Y., & Zhou, X. (2021). Genetic prediction of complex traits with polygenic scores: A statistical review. Trends in Genetics, 37(11), 995–1011.

Mellink, C., Lahbib-Mansais, Y., Yerle, M., & Gellin, J. (1995). PCR amplification and physical localization of the genes for pig FSHB and LHB. Cytogenetics and Cell Genetics, 70(3–4), 224–227.

Mendez, E. A., Messer, L. A., Larsen, N. J., Robic, A., & Rothschild, M. F. (1999). Epidermal growth factor maps to pig chromosome 8. Journal of Animal Science, 77(2), 494–495.

Muñoz, G., Ovilo, C., Amills, M., & Rodríguez, C. (2004). Mapping of the porcine oestrogen receptor 2 gene and association study with litter size in Iberian pigs. Animal Genetics, 35(3), 242–244.

Peltoniemi, O., Yun, J., Björkman, S., & Han, T. (2021). Coping with large litters: the management of neonatal piglets and sow reproduction. Journal of Animal Science and Technology, 63(1), 1–15.

Piórkowska, K., & Ropka-Molik, K. (2021). Pig genomics and genetics. Genes, 12(11), 1692.

Putnová, L., Knoll, A., Dvořák, J., & Čepica, S. (2002). A new HpaII PCR-RFLP within the porcine prolactin receptor (PRLR) gene and study of its effect on litter size and number of teats. Journal of Animal Breeding and Genetics, 119(1), 57–63.

Rahman, M., Phookan, A., Zaman, G. U., Das, A., Akhtar, F., Tamuly, S., Choudhury, H., & Sarma, L. M. (2021). Allelic variability of estrogen receptor (ESR) gene and its effect on litter traits of Doom pigs. Tropical Animal Health and Production, 53(2), 316.

Ramos, A. M., Crooijmans, R. P., Affara, N. A., Amaral, A. J., Archibald, A. L., Beever, J. E., Bendixen, C., Churcher, C., Clark, R., Dehais, P., Hansen, M. S., Hedegaard, J., Hu, Z. L., Kerstens, H. H., Law, A. S., Megens, H. J., Milan, D., Nonneman, D. J., Rohrer, G. A., Rothschild, M. F., Smith, T. P. L., Schnabel, R. D., Van Tassell, C. P., Taylor, J. F., Wiedmann, R. T., Schook, L. B., Martien, A. M., Groenen, M. A. (2009). Design of a high density SNP genotyping assay in the pig using SNPs identified and characterized by next generation sequencing technology. PloS One, 4(8), e6524.

Rothschild, M. F., Messer, L., Day, A., Wales, R., Short, T., Southwood, O., & Plastow, G. (2000). Investigation of the retinol-binding protein 4 (RBP4) gene as a candidate gene for increased litter size in pigs. Mammalian Genome, 11(1), 75–77.

Rothschild, M., Jacobson, C., Vaske, D., Tuggle, C., Wang, L., Short, T., Eckardt, G., Sasaki, S., Vincent, A., McLaren, D., Southwood, O., van der Steen, H., Mileham, A., & Plastow, G. (1996). The estrogen receptor locus is associated with a major gene influencing litter size in pigs. Proceedings of the National Academy of Sciences of the United States of America, 93(1), 201–205.

Ruban, S. Y., Prijma, S. V., Fedota, O. M., & Lysenko, N. G. (2015). Animal genetic resources of Ukraine: Current status and perspectives. Journal for Veterinary Medicine, Biotechnology and Biosafety, 1(1), 23–31.

Saienko, A., Peka, M., Tsereniuk, O., Babicz, M., Kropiwiec-Domańska, K., Onyshchenko, A., Vashchenko, P., Balatsky, V. (2023). Analysis of polymorphism and development of a molecular-genetic system for genotyping by the telomerase reverse transcriptase (TERT) gene. Biosystems Diversity, 31(4), 436–443.

Sharma, A., Park, J.-E., Chai, H.-H., Jang, G.-W., Lee, S.-H., & Lim, D. (2017). Next generation sequencing in livestock species – A review. Journal of Animal Breeding and Genomics, 1(1), 23–30.

Short, T. H., Rothschild, M. F., Southwood, O. I., McLaren, D. G., de Vries, A., van der Steen, H., Eckardt, G. R., Tuggle, C. K., Helm, J., Vaske, D. A., Mileham, A. J., & Plastow, G. S. (1997). Effect of the estrogen receptor locus on reproduction and production traits in four commercial pig lines. Journal of Animal Science, 75(12), 3138–3142.

Shostya, A. M., & Sarnavska, I. V. (2023). Features of reproductive capacity and state of prooxidant-antioxidant homeo-stasis in breeding boars of different breeds. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies, Series: Agricultural Sciences, 25(99), 55–61.

Spötter, A., Drögemüller, C., Hamann, H., & Distl, O. (2005). Evidence of a new leukemia inhibitory factor-associated genetic marker for litter size in a synthetic pig line. Journal of Animal Science, 83(10), 2264–2270.

Terman, A. (2005). Effect of the polymorphism of prolactin receptor (PRLR) and leptin (LEP) genes on litter size in Polish pigs. Journal of Animal Breeding and Genetics, 122(6), 400–404.

Vallet, J. L., Freking, B. A., Leymaster, K. A., & Christenson, R. K. (2005a). Allelic variation in the erythropoietin receptor gene is associated with uterine capacity and litter size in swine. Animal Genetics, 36(2), 97–103.

Vallet, J. L., Freking, B. A., Leymaster, K. A., & Christenson, R. K. (2005b). Allelic variation in the secreted folate binding protein gene is associated with uterine capacity in swine. Journal of Animal Science, 83(8), 1860–1867.

Vargovic, L., Harper, J. A., & Bunter, K. L. (2022). Traits defining sow lifetime maternal performance. Animals, 12(18), 2451.

Vashchenko, P. A., Balatsky, V. M., Pocherniaev, K. F., Voloshchuk, V. M., Tsybenko, V. H., Saenko, A. M., Oliynychenko, Ye. K., Buslyk, T. V., & Rudoman, H. S. (2019). Genetic characterization of the Mirgorod pig breed, obtained by analysis of single nucleotide polymorphisms of genes. Agricultural Science and Practice, 6(2), 47–57.

Vashchenko, P., Saienko, A., Sukhno, V., Tsereniuk, O., Babicz, M., Shkavro, N., Smołucha, G., Łuszczewska-Sierakowska, I. (2022). Association of NRAMP1 gene polymorphism with the productive traits of the Ukrainian Large White pig. Medycyna Weterynaryjna, 78(11), 563–566.

Vincent, A. L., Wang, L., Tuggle, C. K., Robic, A., & Rothschild, M. F. (1997). Prolactin receptor maps to pig chromosome 16. Mammalian Genome, 8(10), 793–794.

Voitenko, S. L. (2012). Henezys Myrhorodskoi porody svynei [Genesis of Mirgorod breed pigs]. Bulletin of Poltava State Agrarian Academy, 2, 94–99 (in Ukrainian).

Voitenko, S. L. (2024). Pigs of meat breeds in Ukraine and the need for the revival of pig breeding. Animal Breeding and Genetics, 67, 29–45.

Voitenko, S., Karunna, T., Shaferivsky, B., & Zheliznyak, I. (2019). Vplyv henotypovykh ta paratypovykh faktoriv na realizatsiiu molochnoi produktyvnosti koriv [Influence of genotypic and paratype factors on realization of dairy productivity of cows]. Bulletin of Sumy National Agrarian University, The Series: Livestock, 36–37, 21–26 (in Ukrainian).

Walsh, P. S., Metzger, D. A., & Higushi, R. (2013). Chelex 100 as a medium for simple extraction of DNA for PCR-based typing from forensic material. BioTechniques, 54(3), 134–139.

Waters, D. L., & Shapter, F. M. (2014). The polymerase chain reaction (PCR): General methods. Methods in Molecular Biology, 1099, 65–75.

Wu, S., Xie, J., Zhong, T., Shen, L., Zhao, Y., Chen, L., Gan, M., Zhang, S., Zhu, L., & Niu, L. (2023). Genetic polymorphisms in ESR and FSHβ genes and their association with litter traits in Large White pigs. Animal Biotechnology, 34(9), 4713–4720.

Zhukorskyi, О. М., Tsereniuk, О. М., Vashchenko, P. А., Khokhlov, A. M., Chereuta, Y. V., Akimov, О. V., & Kryhina, N. V. (2022). The effect of the ryanodine receptor gene on the reproductive traits of Welsh sows. Regulatory Mechanisms in Biosystems, 13(4), 367–372.

Zhyvko, Z., Nikolashyn, A., Semenets, I., Karpenko, Y., Zos-Kior, М., Hnatenko, I., Klymenchukova, N., & Krakhmalova, N. (2022). Secure aspects of digitalization in management accounting and finances of the subject of the national economy in the context of globalization. Journal of Hygienic Engineering and Design, 39, 259–269.