SU881600A1 - Device for isoelectrofocusing - Google Patents

Description

(54) DEVICE FOR ISOELECTRO-FOCUSING

Claims (1)

The invention relates to devices for analyzing charged substances by separating them into components in a constant electric field in a liquid medium, more precisely, to void dosing for isoelectric focusing. A device for iso-focusing is known, comprising a column fitted with outer and inner jackets, a central tube, like a cylindrical cavity of the outer surface of the inner jacket, a spiral platinum anode placed in it in a rigid perforated teflon shirt that is connected to the top with a spring-loaded locking device, and from below with an element sealing the drain hole of the column, a ring-shaped platinum electrode in the upper part of the column, holes for connecting the cavities of the jackets of the pipeline for supplying and removing them from the coolant hole for otvo .da gases in the upper part of the column. electrode terminals, insulating and sealing elements 1. The disadvantage of this device is its structural complexity, especially in the combination of the column with cooling jackets and the high cost. The closest technical solution to the invention is a gas electrofocusing device containing a column in the form of a cylindrical cavity formed by the inner surface of the cooling jacket of the lower cork element with a fitting for draining the working fluid through a capillary electrode, one of which is located in the upper part of the column, and the end of the anode - in its lower part. The platinum anode passed through the hole in the upper part of the device's JOBOM element is made in the form of a wire wound on an electrically insulating rod extending along the center along the length of the entire device and placed in the inner tube. A ring-shaped cathode is passed through the top cork element of the device, the element has two apertures of the gas outlet from the anode and from the column, and there are sealing elements on it and from the li- ing elements. However, this device is difficult in terms of manufacturing a complex of aperture of a seal connected with the upper plug, the insulation passed through the electrode plug, requires a significant consumption of platinum, and is not efficient enough. isoelectric focusing due to the placement of the anode in the tube. The aim of the invention is to simplify, reduce the cost and increase the isoelectro-focusing ability of the device. The goal is achieved by the fact that in the device dp isoelectric focusing, containing a column in the form of a cylindrical cavity formed by the inner surface of the cooling jacket, a lower cork element with a fitting for draining the working fluid through the capillary, electrodes, one of which is located in the upper part of the column, and the anode in its lower part, the anode serves as the lower cork element made of electrically conductive material, while the anode is provided with openings for the discharge of gases and is covered with electrically conductive in wetted state g zonepronitsaemoy membrane. Such an embodiment of the device eliminates the need for a complex top cork assembly, reduces the consumption of platinum for the manufacture of the device and increases the efficiency of isoelectric focusing due to the shape of the anode as a surface, an analogous working surface of the sample. The drawing shows the scheme of the proposed device. The device contains a cooling jacket 1 with connectors 2 and 3 for supplying and discharging coolant a platinum cathode 4 mounted on a centering insulator in the upper part of column 5, a stopper 6 made of electrically conductive material and containing an aperture 7 with a teflon 8 passed through it with a sealing device 9 and with a capillary pipe 10 for draining the working fluid, a membrane 1 made of electrically conductive in a wetted state of a material (for example, cellophane) that does not permeate gas bubbles, and fastening a central portion with a stopper 6 the sealing device 9, and a peripheral portion - the side stopper surface 6 a sealing ring 12. The tube 6 is provided with through openings 13 for withdrawal of gas generated during operation of the device between the plug and septum. The device works as follows. The membrane circle 11 with the central cut made in it is placed on the plug 6 and, passing the Teflon tube 8 through the opening 7, presses the membrane to the plug by device 9. After that, the periphery of the membrane is pressed to the side surface of the plug with a sealing ring 12. The anode prepared in this way is installed in bottom of the column 5. The test substances are poured into it, the cathode 4 is placed with its immersion in a liquid, and by connecting the electrodes to a DC source, the process of isoelectrofocusing is carried out. Gas bubbles formed at the cathode between the working surface of the plug 6 and the membrane 11 are removed through the openings 13. After the process is finished, the working fluid is drained from the column through the nozzle 8 and the capillary 10. After washing the cavity of the column and the capillary, the process can be repeated or they replace membrane 11. The proposed device has a lower cost and, due to its simplicity, can be used for research in almost any laboratory or medical clinic. The invention The device for isoelectric focusing, containing a column in the form of a cylindrical cavity formed by the inner surface of a cooling jacket, a lower cork element with a fitting for draining the working fluid through a capillary, electrodes, one of which is located in the upper part of the column, and the end of the anode parts, characterized in that, in order to simplify and reduce the cost of the device,