RU2612913C2 - Method of increasing life span of molluscs abra segmentum under conditions of hypoxia for period from 4 to 14 days - Google Patents

Abstract

FIELD: medicine; biology.

SUBSTANCE: invention relates to applied physiology and morphology of hydrobionts, malacology, experimental medicine and physiology and concerns method of increasing life span of molluscs Abra segmentum under conditions of hypoxia for period from 4 to 14 days. Presented method in conditions of hypoxia involves placing individuals of molluscs Abra segmentum in tightly closed crystallizing dish with sea water and addition of synthetic leu-enkephalin with concentration: 10^-8 mol/l – 10^-10 mol/l.

EFFECT: invention can be used in studying of hydrobiology, sports and labor medicine, as well as for studying of increasing body resistance in conditions of extreme medium factor – hypoxia.

1 cl, 1 dwg

Description

The technical solution relates to the field of applied physiology and morphology of aquatic organisms, malacology, experimental medicine and physiology. It can be used in hydrobiology, increasing the lifespan of mollusks under the influence of an extreme environmental factor - hypoxia.

A known method of increasing the anti-stress activity of the body (Slepushkin V.D., Lishmanov O.B., Zoloev G.K., Prum I.A. Modern ideas about the mechanism of development of the general adaptation syndrome // Bgol. SB AMS USSR, 1983. No. 6 - pp. 91-100), including the use of analogues of small regulatory peptides, (Slepushkin V.D., Zoloev G.K., Havinson V., Experimental substantiation of the possibility of using peptides as anti-atherogenic agents // Abstracts of international conf. according to prof. cardiology. M., 1985. S. 238, including hypoxia), including use analogues of small regulatory peptides, therapeutic daily dose which is - 2-3 mg.

As a prototype, a method of stimulating physiological processes in fish in the early stages of development was chosen [USSR Author's Certificate No. 1286138, class. A01K 61/00.].

The method involves placing the eggs and larvae of fish, preferably salmon, an aqueous solution of synthetic enkephalin analogue - leu-enkephalin (dalargin) at a concentration of 1 ^-10 g / L in the solution and kept for 1 hour, resulting in an increase in viability of eggs and larvae up to 37.4%, stimulates their growth and reduces the mortality of juveniles by half relative to the control.

The disadvantage of this method is the use for stimulation of physiological processes in fish in the early stages of ontogenesis (eggs, larvae, larvae) and does not imply an effect on aquatic organisms and other organisms with a more complex structure of the nervous system, with the highest degree of receptor affinity. Moreover, the method does not provide an increase in the life expectancy of aquatic organisms and other organisms to prolonged stressful hypoxic effects.

The objective of the technical solution is to improve the way to increase the life expectancy of Abra segmentum mollusks, which have a higher degree of receptor affinity, due to the effect on bivalvous organisms with synthetic leu-enkephalin.

The essence of the technical solution lies in the fact that in a method of increasing the life expectancy of Abra segmentum mollusks under conditions of hypoxia for a period of 4 to 14 days, which includes placing an Abra segmentum mollusk in a hermetically sealed crystallizer with sea water, synthetic leukencephalin concentration is added: 10 ^{- 8} mol / L - 10 ^-10 mol / L. The method provides an increase in the lifespan of mollusks.

The choice of mollusks of this species was due to their active method of water intake and filtration, which consists in the fact that the skin fold - the mantle - forms an input and output siphons with the back surface of the mollusk body, with the help of which bivalves organize a flow of water in the mantle cavity. Representatives of the species Abra segmentum reach an average of 2.5 cm long and weigh 0.1-0.5 g.

The malfunction of mollusks was accompanied by a deterioration in the condition and quality of the mantle, the opening of the valves and a decrease in mobility until complete fading. These organisms have the ability to change the mode of oxygen consumption, depending on the quality of the environment, which is an experimental model for studying the effectiveness of various concentrations of dalargin to increase the life expectancy of mollusks under conditions of hypoxia.

Distinctive features of the method are the addition of dalargin in a concentration of 10 ^-8 mol / L - 10 ^-10 mol / L, exposure of Abra segmentum to mollusks under conditions of acute hypoxia, and measurement of the lifespan of mollusks.

The combination of essential features provides an increase in the lifespan of mollusks.

In FIG. Figure 1 shows a diagram of the life expectancy of mollusks depending on the concentration of dalargin in sea water.

The method is implemented as follows.

In a crystallizer with 200 ml of sea water, dalargin is added, dalargin concentrations are created: 10 ^-8 mol / L, 10 ^-9 mol / L, 10 ^-10 mol / L. 10 Abra segmentum mollusks are housed in each mold and hermetically sealed with cling film, creating conditions of acute hypoxia. All crystallizers are in equal external and temporal conditions. A protocol of the life state and motility of individuals is maintained, and the biological activity of the concentration of a biologically active substance is determined by the final number of days spent in a state of acute hypoxia to increase life expectancy in hypoxic conditions.

According to the dependence of the viability period on the concentration of dalargin, it was found that the optimal concentration of dalargin in therapeutic doses when exposed to living organisms is 10 ^-9 mol / liter, which ensures a mollusk's lifespan of more than 14 days under conditions of hypoxia.

The method provides an increase in the lifespan of mollusks by exposing Abra segmentum bivalve mollusks with a higher degree of receptor affinity to organisms when exposed to dalargin in therapeutic doses.

Claims (1)

A method of increasing the life expectancy of Abra segmentum mollusks under conditions of hypoxia for a period of 4 to 14 days, comprising placing an Abra segmentum mollusk in a hermetically sealed crystallizer with sea water and adding synthetic leu-enkephalin concentration: 10 ^-8 mol / l - 10 ^-10 mol / l

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