SU1682415A1 - Device for producing single crystals of macromolecules - Google Patents

Abstract

The invention relates to the technology of producing single crystals of macromolecules and can be used in biotechnology, in particular to obtain single crystals of the protein of the influenza virus, ensures steady growth of single crystals. The device includes a crystallization chamber containing a tampon material with a separation net for a precipitant solution and a means for introducing a crystallization solution in the form of a hanging drop. It is provided with an elastic container made of a polymeric material, impermeable to the substance to be crystallized and vapor permeable to the precipitant. Under the container, a protective cap is installed with the possibility of movement. Protection against the effects of mechanical loads, disruption and fall of a drop, and obtaining crystals of increased sizes are provided. 1 il.

Description

The invention relates to the technology of producing various single crystals of macromolecules, for example, to the field of biotechnology, in particular, to obtain single crystals of an influenza virus protein,

The purpose of the invention is to ensure the sustainable growth of single crystals.

The drawing shows the device, a cross-section.

The device contains a crystallization chamber 1, in the lower part of which a tampon material 2 is placed with a separation net 3 for a precipitant solution. The tampon material is made, for example, of cotton fabric. In the upper part of chamber 1 is placed the means for introducing the crystallization solution in the form of a hanging drop 4, which contains a piston 5. The hanging drop 4 is placed in an elastic spherical container 6 made of a semi-permeable polymeric material. Under the container 6, a protective cap 7 is mounted with the possibility of movement with the help of a piston 8 and a handle 9. The sealing of the chambers is carried out with the help of sealing rings 10, screws 11 and 12 and their sealing gaskets 13 and 14. Air vent 15 and 16 are also in the device.

All parts of the device are made of a biologically inert and corrosion-resistant material, such as titanium, fluoroplastic, etc., and the container 6, in which the dosed portion of the crystallization solution is placed, is made of a semi-permeable polymeric material that is impermeable to crystallizable molecules. for the precipitator.

The device works as follows

A dosed portion of the crystallization solution through the air vent 15

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injected into a closed container 6 with a slight excess. Next, the air vent 15 is closed with a screw 11, this removes air from container b and a small excess of the crystallization solution. Then, sealing is carried out using a gasket 13. In this case, the container 6 is insulated from the environment by a movable protective cap 7 (position A).

The solution of the precipitator is refilled through the air inlet 16. When this occurs, the tampon material drink 2 precipitator solution. Then, the crystallization chamber is sealed with a screw 12 with a gasket 14. With the help of the руч-pen 9, the movable protective cap 7 is moved from position A to position B (indicated by a dotted line). This removes the isolation of the crystallization solution from the external environment. The crystallization solution interacts with precipitator vapors through the wall of a closed container made of semi-permeable polymeric material, for example polyetherurethane, and a crystallization reaction starts.

The production of single crystals of proteins and biological macromolecules occurs due to the diffusion of the solvent from the crystallization solution into the precipitator through the semi-permeable polymer material of the container and the vapor-gas phase. Diffusion of the solvent from the crystallization solution to the precipitator is due to the difference in the concentration of the solvent in the precipitator and the crystallization solution (the law of concentration equalization is Fick's law). When this occurs, the increase in protein concentration in the crystallization

in solution and when the solubility limit of the protein is exceeded, a single crystal begins to form in the crystallization solution.

The process of forming the growth of single crystals of proteins and biological macromolecules is carried out in the temperature range of 2-36 ° C and for up to 3 months. The specific data depends on the type of protein.

The proposed device ensures the preservation of the crystallization substance and the single crystals obtained, since the spherical elastic container protects them from mechanical effects.

loads, i.e. does not allow the disruption and fall of the dosage portion of the crystallization solution. In addition, large portions of the crystallization solution can be refilled into the container described above, and

as a consequence, to obtain monocrystals of large sizes, since the spherical container protects from disruption the dosed portion of the crystallization solution under the action of gravity.

Claims (1)

The invention The device for producing single crystals of macromolecules, comprising a sealed chamber containing a tampon a material with a separating net for a precipitant solution and a means for introducing a crystallization solution in the form of a hanging drop, under which a protective cap is mounted that can be moved, characterized in that, in order to ensure stable growth of single crystals, the input means are provided with an elastic container made of a polymeric material, impermeable to the crystalline substance and permeable to the vapor precipitator. eight