RU2806803C1 - Development of a method for accelerated selection to create specialized lines of gilts - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: method for testing gilts using DNA analysis for the AA, AB and BB genotypes of the PRLR gene and selecting gilts with the BB genotype of the PRLR gene.

EFFECT: improving the efficiency of selecting gilts for a replacement group with high reproductive qualities.

1 cl, 4 tbl

Description

The invention relates to agriculture, in particular to animal science, and can be used in breeding and selection of pigs.

There is a known “Method for screening pigs (options) and a screening kit: (options)” [RU 2162895 C2, C12Q 1/68 (2000.01), C12P 19/34 (2000.01), 02/10/2001] for identifying individuals with more likely increased fertility and OPN alleles present in the pig genomic DNA sample. The invention makes it possible to increase the number of offspring compared to the given value in the selected population.

There is a known “Method for breeding pigs for high reproductive ability” [RU 2756315 C1, A01K 67/00 (2006.01), A01K 67/00 (2021.08), 09.29.2021] based on the use of immunogenetic analysis, namely, identification of the bdg allele of the E group system blood. This method does not require large expenses in obtaining a herd of sows with high reproductive abilities. However, the disadvantage of this method is the reduction in the use of immunogenetic analysis for genotyping pigs, due to the transition of studies of the genotype of pigs using DNA analysis methods.

The “Method of increasing the meat productivity of pigs by selection using a genetic marker” is known [RU 2514634 C2, A01K 67/00 (2006.01), 04/27/2014]. The method differs in that the selection and selection of replacement young stock according to the degree of concentration of free lysine in the muscle tissue of the longissimus dorsi muscle is carried out according to meat qualities, and cannot be used in the selection of pigs for reproductive traits. The disadvantage of this method is that the identification of osteopontin (OPN) alleles is carried out by microsatellites; determining the lengths of microsatellite fragments of deoxyribonucleic acid requires expensive equipment, namely a sequencer and the purchase of diagnostic kits, which makes the method more expensive.

The proposed method is based on the use of a technique for assessing the breeding value of pigs based on the results of the first farrowing using the genomic prediction method.

A distinctive feature of the proposed method is that in order to obtain a herd of sows with high reproductive capacity in subsequent generations, pigs with the BB genotype of the PRLR gene (prolactin receptor), which is associated with increased reproductive qualities of pigs, are selected for the reproduction of the herd at 28-30 days of age. particularly with multiple births.

The purpose of the invention is to increase the efficiency of selection of sows for reproductive qualities.

This goal is achieved by selecting gilts into a replacement group for the reproduction of a herd with the BB genotype of the PRLR gene.

The essence of the method is to test pigs at 28-30 days of age using DNA analysis for genotypes AA, AB and BB of the PRLR gene and select pigs with the BB genotype of the PRLR gene.

The proposed method makes it possible to increase the efficiency of selection when selecting pigs into a replacement group with high reproductive qualities for the reproduction of the main herd at an early age.

The method is carried out as follows:

1. When weaning piglets, blood is taken from the gilts at 28-30 days after farrowing.

2. Blood is examined in a genetic laboratory that has accreditation or a certificate of registration with authorized bodies.

3. The laboratory conducts research on the genotype of pigs using the PCR method for the PRLR gene. This gene determines a specific receptor for the hormone of the anterior pituitary gland - prolactin, which in the body is involved in the regulation of growth, metabolism and reproduction.

4. Gilts with the PRLR BB genotype are selected for the group of replacement (breeding) young animals.

Example. Research on the development of the proposed method was carried out at Rakita LLC, Rakityansky district, Belgorod region, on large white pigs. In order to study the genetic situation in the herd of the experimental group of pigs, the pigs selected for the experiment were certified for the PRLR gene, which marks the reproductive qualities of pigs. To study the associative connections between the productive qualities of animals and their genetic characteristics by blood type, a comparative analysis of their multiple births and genetic test data was carried out.

Algorithm for processing results

1. To study the associative connections between the productive qualities of animals and their genotypic characteristics based on the blood genotypes of the PRLR gene, a comparative analysis of their multiple births and genetic test data was carried out.

2. A total of 120 heads of large white breed sows were selected, of which 40 heads of each genotype - with genotype AA - 40 heads, with genotype AB - 40 heads. and with the BB genotype - 40 goals.

3. A comparative analysis of reproductive qualities (multiparity, number of piglets at weaning, live weight of the nest at weaning) was carried out in experimental sows with different genotypes AA, AB and BB of the PRLR gene.

4. The results of the analysis are presented in Table 1 - Reproductive qualities of sows with the PRLR AA genotype, in Table 2 - Reproductive qualities of sows with the PRLR AB genotype, in Table 3 - Reproductive qualities of sows with the PRLR BB genotype.

5. Calculation of the reliability of the difference in reproductive qualities between genotypes AA, AB and BB of the PRLR gene.

Analysis of the genetic status of animals of all groups showed the ineffectiveness of using genotypes AA and AB of the PRLR gene as markers of high reproductive ability in these herds.

At the same time, data processing showed that sows with the BB genotype of the PRLR gene have a significant advantage over the AA and AE genotypes in terms of multiple births by 2.8 heads. (P<0.001) and 2.0 goals. (P<0.001); number of heads at weaning - 2.6 goals. (P<0.001) and 1.7 goals. (P<0.001); nest weight at weaning - 22.0 kg (P<0.001) and 10.0 kg (P<0.001).

Data from the analysis of the reproductive qualities of Large White breed sows with different genotypes of the PRLR gene are presented in Table 4.

To determine the reliability of the data obtained from the compared groups of animals, the difference in means was used, determined by formula 1:

The significance of the difference in means was determined using the Student's t-test [Plokhinsky N.A. Guide to biometrics for livestock specialists / N.A. Plokhinsky - M.: Kolos, 1969. - P. 256.] according to the indicators “multiple pregnancy”, “number of piglets at weaning” and “weight of the nest at weaning” among three groups of animals, the difference in averages is 2.8 heads and 2. 0 heads, 2.6 heads and 1.7 heads, 22.0 kg and 10.0 kg is reliable, the reliability threshold of the results obtained is 0.999 (P<0.001).

Based on the data obtained, a method of accelerated selection is proposed to improve the reproductive qualities of sows by selecting replacement gilts with the BB genotype of the PRLR gene;

The development of a method for accelerated selection to create specialized lines of pigs makes it possible to increase the efficiency of selection of sows for reproductive qualities, in particular to increase multiple births.

Claims (1)

A method of selecting pigs for high reproductive ability, characterized in that from pigs at the age of 28-30 days, when weaned from sows, blood or a piece of skin is taken to determine the genotype for the prolactin receptor gene PRLR, while the main herd is selected for the group of replacement young animals for reproduction gilts with the PRLR BB genotype.