SU1165334A1 - Method of regulating the sex of mammals progeny - Google Patents

Description

The invention relates to the breeding of farm animals.

A known method of regulating the sex of the offspring of mammals, including ‘selection of sperm by sedimentation and electrophoresis.

A known method of regulating the sex of the offspring of mammals, including the identification of sex-determining sperm and their subsequent selection for insemination [2 ^.

However, the known methods ensure the predominance of individuals of one sex over another within the range of 50-66% and a low yield of polo-determining sperm, i.e. sperm use makes up 10-30% of the total volume, · .a also reduce sperm motility.

The purpose of the invention is to increase the accuracy of * regulation, as well as * eliminating cell damage.

This goal is achieved by the fact that according to the method for regulating the sex of mammalian progeny, including identifying sexually determining spermatozoa and their subsequent selection for insemination, identifying sexually determining spermatozoa, they are carried out by the speed of their movement in semen, and sperm having an average sperm movement speed of 70 μm / are selected for insemination s and above at a sperm temperature of 24-26 ° C, while the insemination of the selected sperm is carried out once. \

The sex of the offspring of mammals in sheep is regulated. The speed of sperm movement is measured at a temperature of 25 ° C, which is optimal for this procedure, since the speed of cells at this temperature for a long time remains at the same level. At higher temperatures, sperm cells quickly spend their energy potential aging and dramatically reduce the initial (true) speed of movement. So, for example, with a single cell count at 37-38 ° C, only the first five spermatozoa can characterize the true speed of movement, the subsequent ones move more slowly for the indicated reasons. ' Whereas at 25 ° C the speed can be counted in 25 spermatozoa in one sample, i.e. for counting '100 cells, it is enough to make four samples instead of 20 if counting is carried out, at 37-38 ° С,

Thirty sperm ejaculates thawed after freezing in lactose o-yolk-gum arabic-tris-citrate-glycerol (LVH TTG) medium measure the speed of sperm at 25 ° C. 0.1 ml of semen is used for measurement, which is diluted in 5 times 1: 4) with a solution of sodium citrate, trisubstituted, pentahodic 3% concentration. In each ejaculate, the speed of one hundred sperm is calculated and the average value of this indicator is calculated. Ejaculate with an average speed of sperm movement of 70 μm / s and above, i.e. 9% higher than the average statistical speed of spermatozoa at 25 ° C is selected for insemination of sheep in order to obtain individuals mainly male. Another group of sheep is inseminated. sperm ejaculates having an average sperm movement speed below ’70 μm / s. Ten ewes are inseminated with each ejaculate, i.e. only 300 goals, Inseminate the sheep once, immediately after the selection of the sheep in the hunt, which is carried out in the morning, i.e. 10-30 hours before ovulation.

The sex ratio in the offspring with single and double insemination by selected sperm is presented in Table 1. Double insemination is carried out immediately after sampling in the hunt and after 8 hours.

As can be seen from the table. 1 sperm ejaculate, the speed of sperm probes in which exceeds 25 μm / s at 25 ° C, give offspring with a significant predominance of males only with a single insemination of sheep: 100 eggs were obtained. There are 314 sheep in the offspring, while in the group of sheep inseminated ejaculate with a sperm speed of 69 μm / s and below 106 rams. The difference in the sex ratio at different sperm velocities is significant only with a single insemination and is 25% at ϋά = 2.55. The experimental results are also processed for each ejaculate, for which the sex ratio (in%) is calculated.

Sex ratio in. offspring at different sperm movement speeds are presented in Table 2.

From table 2 it is seen that the number of cases with a sex ratio above the average (55%) is significantly higher (864 413.1%) in ejaculates with a sperm speed of 70 μm / s and higher than in ejaculates with a speed of 69 μm / s and . lower (42+ + 11.3%), £ </ = 2.54, p ^ -0.05.

1165334 4

Using the method of regulating sexes of nursing allows to obtain in the offspring, for example, sheep, the yield of males is 76%, provides a full ^ 100%) use of sperm for artificial insemination and avoids mechanical damage during the separation of sperm.

Table I

Speed movements ! Received in offspring with double insemination Received in the offspring with a single insemination spermatozoa _about at 25 C, μm / s 1 brightens rams brightens rams Goal. % Goal. % 100 tiers GOAL % Goal. % 100 tiers

69 and not same 20 53 18 4718.1 90 36 49 38 51 + 5.8 106 70 and higher 10 42 14 58 + 10.1 140 7 24 22 76 + 7.9 314 Different tsa 1 ί 25 sa 0.85 ' 2,55 p < 0.5 0.02

Table 2.

Sperm movement speed at 25 ° C (μm / s) Number of cases with sex ratio higher (55%) middle below (55%) middle P I ^ζ ' P ί * 69 and below 8' 42 + 11.3 eleven 58 + 11.3 70 and - above 6 86 + 13.1 1 14 + 13.1 Difference 44 sa 2,55  ’- P < 0.05

Claims (1)

METHOD FOR REGULATING THE FLOOD OF THE MILKING HOUSES, including the identification of sexually determining spermatozoa and their subsequent selection for insemination, characterized in that, in order to increase the accuracy of regulation, identification of sexually determining spermatozoa is carried out according to the speed of their movement in semen, and for the axis the speed of sperm movement is 70 μm / s and higher at a sperm temperature of 24-26 ° C, while the insemination of the selected sperm .. mine is carried out once. _ C2 ω σ cl 4 ^>