UA76069C2 - Method for production of dna-containing sorbent - Google Patents

Abstract

The invention relates to the medicine, namely, to the immunosorption and it can be used for purification of blood or plasma of patients from DNA-tropic substances. The substance of the invention consists in treatment of sorbent by DNA solution, drying and incubation in the environment of absolute alcohol with a fixing agent during not less than 12 hours at a temperature not below than 20 DEGREE C and subsequent washing of finished product. Obtained DNA-containing sorbents are characterized by high content of DNA with retention of absorbing properties of activated adsorptive matrices.

Description

The method is the closest in terms of technical essence to the proposed method and consists in applying 750 mg of activated sorbent SKN-2K (U: on DNA solution on carbon hemosorbent, drying and benzene 1, Osm3/g, granule size (0, 5-1mm) are mixed with UV-irradiated DNA solution dried from 1Oml of DNA (1Zmg of DNA), dried in a sorbent in absolute alcohol with a subsequent stream of cold air and incubated in a box with washing of the finished product. The UV stage of this method is the ultraviolet irradiation stage which contains 295 glutaraldehyde or 295 irradiation in absolute alcohol.formaldehyde for 12 hours at 2070.

For its implementation, the necessary design was also processed activated sorbent of a special reactor, which should provide GOHD (Uz for benzene 2.0 cm3/g, granule size (0.5 - reliability and safety of carbon irradiation - 1 mm) and KAU coal (M5 for benzene 0.5 g of hemosorbent. cm3/g, size (0.5 mm). Then the alcohol is extracted by

The task of the invention is to improve the technology using a Buchner funnel, incubate, mediate DNA-containing sorbent while preserving and calculate the amount of desorbed high content of DNA and sorption qualities of the matrix, DNA, as described in example 1. Desorption of DNA, which by using a fixing agent for is equal to or less than 5095 is chosen as a criterion for immobilization of the ligand on the activated sorbent. the integrity of the method. Because it should be assumed that

The problem of the invention is solved due to the fact that the loss of more than 5095 ligand is economically and immobilization of the ligand on an activated sorbent is fundamentally unreasonable. Contain by incubation for at least 12 hours of desorption of DNA from its source, applied for hours at a temperature not lower than 20"C in the medium, the amount of sorbent is given in Table 2: higher than absolute alcohol containing a fixing agent. Table 2

The essence of the invention is as follows: the activated sorbent is treated with a DNA solution, dried, then incubated in a solution of a fixing agent in absolute alcohol for at least 12 hours at a temperature not lower than 20"7C and the finished product is washed.

The essence of the invention is revealed by the following examples:

Example 1 and Thus, when introducing into the system, I fix 150 mg of activated charcoal. 2Kk (Me, on which the agent manages to immobilize on the sorbent not benzene 1.0 cm3/g, the size of the granules (0.5-1 mm) of the mixture is less than 50 95 from the applied DNA during incubation 12 with 100 ml of DNA solution (1 Zmg of DNA) and placed hours at 202C per Petri dish, dried in a stream of cold Example 3. air and incubated in a box with a polished lid, 750 mg of activated sorbent SKN-2K (M" per 20 ml of absolute alcohol without a fixing agent, benzene 1.0 cm3/g, granule size (0.5-1 mm) of the mixture for 12 hours at 20"C. Then the alcohol is extracted from 1 ml of the DNA solution (13 mg of DNA), dried in treated Tom Aktov in ODU lo 0 STUMI of cold air and incubated in buko from benzene 2, 0 cm3/g, granule size (0.5-1 mm bone- ground lid with 20 ml of absolute alcohol

In g that p granules (0, ), which contains 290 glutaraldehyde or 295 KAU sorbent (M5 for benzene 0.5cm3/g, size of formaldehyde for 12 hours at 192C. granules (0.5-1mm). . and The activated sorbent was processed in the same way

To determine the strength of the connection of DNA from the matrix, HSGD (Me based on benzene 2.0 cm3/g, granule size (0.5 cm, the resulting sorbent is incubated and washed 1 mm) and KAU coal (Me based on benzene zbml 0.15 M r mass, mixed with 1.5 M solution mass, and 6 M O.5 cm3/g, granule size (0.5 mm). Then the alcohol

MV of urea. ! obtained with the help of a Buchner funnel, incubated in ethanol and the listed eluates are determined, washed and the amount of DNA desorption is calculated according to the Spirin method. The amount of desorbed DNA, as described in example 1, of desorbed DNA is determined in the examples as the ratio of DNA desorption from its original "applied on the thread between its original amount applied to the sorbent, the amount is given in Table 3. bent, and the amount of the drug found in ethanol I and eluates. about the desorption of DNA from its original amount, not Table C of seina on the sorbent, is given in Table 1: th aldehyde formaldehyde up to 2170

Thus, at a temperature below 20902 at . pe ;. after incubation for 12 hours, it is possible to immobilize it on sor-

As can be seen from Table 1, immobilize DNA at a bend less than 5095 from the applied DNA. the matrix practically fails.

Example 4 Activated sorbent 750 mg of activated sorbent SKN-2K (M according to GOHD (UM according to benzene 2.0cm3/g, granule size (0.5- benzene 1 Osm3/g, granule size (0.5-1Tmm)) mixed 1Tmm ) and KAU coal (Me on benzene with 1 Oml DNA solution (1 Zmg DNA), dried in 0.5 cm3/g, granule size (0.5 mm). Then the alcohol is blown with cold air and incubated in a box with with the help of a Buchner funnel, incubated with a rubbed lid with 20 ml of absolute alcohol, washed and calculated the amount of desorption of DNA from its parent, as described in example 1. applied to

Activated sorbent was processed in the same way, the amount of sorbent is given in table 5:

HOGD (Uz according to benzene 2.0cm3/g, granule size (0.5-1 mm) and KAU soft coal (Me according to benzene Table 5

O.5 cm3/g, granule size (0.5 mm). Then the alcohol is removed using a Buchner funnel, incubated, washed, and the amount of desorbed DNA is calculated, as described in example 1. The desorption of DNA from its initial amount applied to the sorbent is given in Table 4: Table 4 5 - In this way, DNA-containing sorbents with a high content of DNA sorbent, approximately 16 mg per 1 g of the aldehyde formaldehyde matrix, are obtained by the proposed method Example 6

In order to assess the preservation of the properties of the initial carbon matrices of the synthesized immunosorbents, the kinetics of the absorption of the vitamin B marker are studied."

Thus, when incubated for less than 12 hours at a temperature of 20" C, it is possible to immobilize the benth less than 50 95 from the applied DNA. As can be seen from the given data, the proposed

Example 5. This method allows you to obtain DNA-containing carbon. 750 mg of activated sorbent SKN-2K (M5 according to the hemosorbent with a high content of DNA at benzene 1.0cm3/g, the size of the granules (0.5-1mm) is mixed to preserve the absorbent properties of the activated 1 Oml of DNA solution (1 Zmg of DNA), dry the sorbents in them and replace the stage with an ultraviolet current of cold air and incubate in a box with irradiation in absolute alcohol, which with a rubbed lid with 20 ml of absolute alcohol requires the construction of a special explosive containing 195 glutaraldehyde or 195 safe reactor, for incubation in ordinary formaldehyde for 10 days at a 602C thermostat.

Table 6

Type of carbon sorbent - conditions from a solution containing 1000 μg of Bi2 during incubation per 1 g of sorbent, and in mg (min.) 75 ЮЩ | 15 | with | 60 7 sknaKk 77771077 7772bo 7775 7777750. |. 815.2

SKN-2KADNA, 16 225 460 700 720 synthesized according to the claimed method

SskKNn-2KADNA, 16 230 470 710 720 synthesized by the prototype method

Computer layout M. Klyukin Signature Circulation 26 approx.

Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601