DE2356178A1 - Electrophoresis vessel with overhead support resting on sponges - which form contact with buffer solution in compartments below - Google Patents

Abstract

An electrophoresis appts. for carrying out gel or sheet electrophoresis comprises a vessel contg. buffer soln. and subdivided by a transverse, vertical partition into two chambers, each contg. an electrode running along the vessel floor and parallel to the partition; each compartment contains a sponge, higher than the partition and serving for supporting the object support plate, which bridges across above the partition; the vessel has internal contacts, and is designed for resting upon a bed plate having external contacts; a lid fits over and all round the vessel. Pref, each compartment on either side of the partition contains a lower, secondary partition, the sponges being incorporated in the sub-compartments on the outer side of these secondary partitions. This sub-compartment on each side may also contain third partitions running in vertical guides in the vessel walls. For gel or sheet electrophoresis, where the substances to be separated are placed on a sheet or a plate coated with gel. The apparatus is considerably simpler than previous devices and suitable for many repeated experiments.

Description

Patent attorneys Dipl.-Ing. F. Weickmann, 2 3 5 6 1 '/

Dipl.-Ing. H.Weickmann, Dipl ^ Phys. Dr. K. Fincke Dipl.-Ing. F. A. Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 86, THE 1 k. D BI

PO Box 860 820

MÖHLSTRASSE 22, CALL NUMBER 98 39 21/22

"'- /' FFHF.TM G-MBTJ

68 Mannheim

Sandhofer Str. 112-132

lilectric ophor e device

DIo "Tfinclmig relates to an electrophoresis device for implementation the gel odor of foil electrophoresis.

The ilektrophorsse serves to separate charged particles from them containing substances on a slide or with a gel ■ coated plate are applied as a carrier. Becomes a When an electric current is passed through the substance, electrophoretic migration causes it to vary in strength Displacement of differently charged particles so that the particles are separated. This The process can be carried out with an arrangement of two electrodes supplied with direct voltage in two containers filled with buffer solution be carried out in die.der carrier with two edges immersed, so that a current flow from one container to the other through the substance occurs - and the electrophoretically ^ Separation of the charged particles present therein appears. For example, it is possible to use serum protein,

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Isoenzymes, lipoproteins, glucoproteins and other substances to separate from body fluids and other solutions. Layers of agar, agarose, Starch and polyacrylamide gel as well as cellulose acetate films and filter paper strips are used.

The previous devices for carrying out this elec- tric. trophoresis method are extensive and complicated and require cumbersome adjustment work for the electrical supply and for the arrangement of the slide. Especially with serial examinations that are quick and are to be carried out in large numbers with the same conditions, but is the greatest possible simplification of the To require examination devices so that the results are impaired as little as possible as a result of varying Parameter is guaranteed.

The object of the invention is to provide a compact as possible To create device for carrying out the electrophoretic process, which is universal for gel and foil electrophoresis is suitable and is subject to as few changes as possible during operation.

An electrophoresis device is according to the invention to achieve this object characterized by a container for buffer solution, the interior of which is defined by a vertical partition wall is divided by arranged on both sides of the dividing wall near the container bottom, parallel to the dividing wall running electrodes, through sponges inserted into the container and higher than the partition wall as carriers for one to be placed on it, bridging the partition wall Object slide and by the design of the container as one provided with internal contacts, on one with external contacts provided power supply part attachable and

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a cover that encloses it on all sides

This device has a very small footprint and is very easy to use. By training in shape Units to be placed on top of each other, which are also functionally related to each other, are guaranteed, that an operation of the device is only possible if its units are properly assembled. The partition wall in the container forms the two separate spaces for receiving the buffer solution in a simple manner, and the lid that can be placed on the container ensures that the slide is pressed against the sponges, which soak up the buffer solution and thus bring it to the slide. Overall, there is one Construction that has a consistent arrangement and assignment between slides for each analysis to be carried out and the container elements and an impairment of the analysis results by changing them Avoids assignment.

The device according to the invention can be constructed in such a way that slides of different sizes can also be used can. Advantageously, further partitions in the container parts in a simple manner can flow paths through the Buffer solutions can be generated, which prevent clogging of the sponges with crystallized buffer material. at relatively small dimensions it is possible to make several slides to be introduced into the device side by side at the same time.

The power supply in the power supply part can be specifically assigned to only one device due to its fixed assignment be coordinated, so that their effort is low. To the

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Saving space and weight as well as avoiding a Excessive heating can be caused, for example, by a transformerless triac circuit with a downstream bridge rectifier be applied.

An exemplary embodiment of a device according to the invention is described below with reference to the figures. Show it:

Fig. 1 shows the three units of the device in an exploded view Depiction,

Fig. 2 shows the cross section of the container for a first operating position and

3 shows the cross section of the container for a second operating position.

Fig. 1 shows the mutual assignment of an electrophoresis container 1, a power supply part, 2 and a cover 3. These units are rectangular and provided on their narrow sides with such a shape that they cannot be moved when placed on top of one another are connected to each other. Thus, the container 1 has vertical indentations 4 and 4 on its two narrow sides 5, which run over the entire height of the side surface and form inwardly protruding fitting webs and outwardly fitting grooves. The power supply part 2 is provided on its two narrow sides with corresponding fitting grooves 6 and 7, in the the fitting webs 4 and 5 of the container 1 when placed on the power supply part 2 are used. The container 1 has Narrow sides that protrude below its base. The power supply part 2 is corresponding in its upper part the thickness of these extensions and the side walls of the lid 3 are reduced so that those with the three units formed overall arrangement has a smooth outer surface.

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The power supply part 2 has an external contact 8 ″ or 10 in each fitting groove 6 and 7, which when the container is in place 1 is connected to an internal contact attached to this on the respective fitting web 4 or 5, and thus connects the electrodes provided in the container 1, not shown in FIG. 1, to the power supply part 2. The power supply part 2 is fed via a mains connection cable 12, which is indicated in FIG. the External contacts 8 and 10 can consist of high quality material and are inwardly through contact pockets 9 and 11 guided.

In Fig. 1 it can also be seen that the interior of the container 1 is parallel to one another in the longitudinal direction extending partition walls 13, 14, 15 is provided. The partition walls 14 and 15 can be removed from the container are and are arranged in vertical guides, as will be described below.

The cover 3 has on its narrow sides inwardly directed fitting webs 16 and 17 and is on its top surface with Longitudinal webs 18 and 19 provided, which act in a manner to be described on a sample carrier when the Lid is placed on the entire arrangement. The lid 3, like the container 1 and the power supply part 2, can consist of a plastic and optionally transparent be.

In Fig. 2 a cross section of the container 1 is shown. Here you can see how the allocation of the partition walls, the electrodes and a sample carrier are realized with respect to one another. The middle partition wall 13 is fixed with - container bottom 33 connected so that it forms two individual containers for buffer solution 36. In each individual container

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is an electrode 21 or 22 near the bottom surface 33 and the middle partition wall 13 is arranged. These electrodes 21 and 22 may be platinum wires with each an internal contact on the extended side walls of the container 1 are in communication. Such an inner contact In the sectional view shown in FIG. 2, the contact 20, which is fastened to the fitting web 5, is. This When the container 1 is placed on the power supply part 2, contact 20 is connected to the external contact 10 of the power supply part 2 in connection. In addition to the dividing wall 13, two further dividing walls 34 and 35 are fixed connected to the container bottom 33, but these two partition walls 34 and 35 are through the liquid level the buffer solution 36 covered. · There are also two more partition walls 23 and 24 are provided, which are guided in vertical guides 25 and 26 of the narrow sides of the container and can be inserted into these guides 25 and 26 from above. The guides 25 and 26 terminate above the bottom of the container 33, including in them small lugs 31 and 32 are provided, which cause the partition walls 23 and 24 to their lower edges form a distance from the container bottom 33 which is filled by buffer solution 36. on den.Aussenseiten of the two removable partition walls 23 and 24 are two sponges 27 and 28 indicated, which are in the Immerse buffer solution and are so high that a slide 29 with a substance to be treated electrophoretically 30 can be placed on it without touching any of the partition walls.

When the electrodes 21 and 22 by the power supply part with an electrical

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Voltage are fed, a current flows from the Electrode 22 to electrode 21 in the direction indicated by the arrows. The current path runs here via the low partition walls 34 and 35, by the distance between the partition walls 23 and 24 and the Container bottom 33, through the sponges 27 and 28 and through the substance 30 on the slide 29. It is closed recognize that with this arrangement an electrophoretic treatment of the substance 30 on the slide 29 is possible. Because the current flowing from the electrode 22 to the electrode 21 is a labyrinthine Path given by the high or low partition walls is reliably avoided, that from the buffer solution 36 crystallized buffer material settles in the sponges 27 and 28 and can clog it.

A plate of the type indicated in FIG. 2 can be provided as the sample carrier 29, in the same way however, a film can also serve as the sample carrier. If a film is used as the sample carrier, a clamping frame is expediently used to hold the film which is known for such purposes.

Fig. 3 shows an arrangement of that already described Container for electrophoretic treatment smaller samples. In Fig. 3 it can be seen that the dividing walls 23 and 24 from the guides 25 and 26 are removed and thus a larger space for sponges 39 and 40 is available. There the two Sponges 39 and 40 can now fill the space up to the low partition walls 34 and 35,

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it is possible to place narrower sample carriers 37 with a substance Zr provided thereon: on the sponges 39 and 40. To carry out the electrophoretic treatment of the substance 38, in the same way as in the arrangement shown in FIG. 2 , an electrical voltage is applied to the two electrodes via the contacts of the container 1, of which the contact "O is shown in FIG. 3 21 'and 2 ?., so that a current flows, for example, from the electrode ? <. To the electrode ? Λ . Here, too, the current flows from the electrode 22 through the buffer solution 36, the first sponge 40, the substance 3 ^ · , the second sponge 39 and the buffer solution; 36 in the left part of the container for the electrode 21.

It can be seen that with a container according to the invention different configurations for to be treated Samples bsi. ', Slides to be inserted realized can be. The ones available to the swarms Spaces can be completely rammed by jev; eils be filled out, but it is also possible to use narrower or wider sponges. These sponges can be used over the entire length of the container run or be divided into individual pieces if, for example, several sample carriers are different Width are to be inserted, which may be different To be exposed to currents. The respective current strength can be determined by the width of the sponges definitely ground.

When the overall arrangement shown in Fig. 1 is assembled, the two longitudinal webs 13 and 19 of the practice Lid 3 an even pressure on the respective

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Object slide 29 or 37, so that a reliable contact between the sponges 27 and 28 or 39 and 40 and the substance to be treated 30 or ». 38 is guaranteed. A special external pressure effect on the cover 3 is not necessary because the latter generates a sufficient pressure effect due to its own weight.

The removable partition walls 23 and 24 can also be provided with openings near their lower edges, which allow the buffer solution 36 to flow through. In In this case, the dividing walls 23 and 24 sit on the container bottom 33, and the guides 25 and 26 extend as far as the container bottom 33.

The sponges 27, 28 and 39 »40 as well as the distances' of the removable dividing walls 23 and 24 to the outer walls of the container can expediently be dimensioned so that the arrangement shown in FIG. 3 after removal the partition walls 23 and 24 simply by rotating of the sponges, 27 and 28 at 90 degrees. In this case, the sponges 27 and 28 must be wider than be the height of the partition walls 23 and 24.

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Claims (1)

Godfather, claims 1. Electrophoresis device to carry out the gel or Foil electrophoresis, characterized by a container (1) for buffer solution (36), the interior of which is divided by a vertical partition wall (13), by on both sides of the partition wall (13) electrodes (21, 22) arranged near the container bottom (33) and running parallel to the partition wall (13) by sponges (27, 28; 39) inserted into the container (1) and higher than the partition wall (13) 40) as a carrier for an object carrier (29; 29; 37) and the design of the container (1) as one with internal contacts (20), on one with External contacts (8; 10) provided power supply part (2) attachable and enclosing it on all sides Lid (3) supporting attachment. 2. Electrophoresis device according to claim 1, characterized in that that on both sides of the dividing wall (13) a second, opposite the level of the buffer solution (36) lower partition wall (34, 35) is arranged and that in the space between this partition wall (34, 35) and the respective container wall of the sponge (27, 26; 39, 40) is arranged. 3. Electrophoresis device according to claim 2, characterized in that in each space between the lower Partition wall (34, 35) and the respective container wall 5 0 9821/0069 a third, opposite the level of the buffer solution (36) higher partition wall (23, 24) is arranged, which a flow of the buffer solution on the container bottom (33) (36) permitted. . / ■ !. Electrophoresis device according to claim 3, characterized in that that the third "'partition walls (23, 24) in vertical guides (25 ·, 26) provided on the inside of the container can be inserted. !?. Electrophoresis device according to claim 4, characterized in that that the guides (25, 26) above the container bottom (33) ends. C. lilectrophoresis device according to one of the preceding claims, characterized in that the container (1), the power supply part (2) and the lid (3) approximately have a rectangular plan and on their narrow sides each with a vertical, fitting groove (6, 7; 4, 5) or a vertical fitting web (4, 5; 16, 17) are provided. 7, electrophoresis device according to claim 6, characterized in that that the power supply part (2) has fitting grooves (6, 7) in which the external contacts (8, 10) are arranged. 8. Electrophoresis device according to claim 7, characterized in that the container (1) with over its bottom (33) is also provided downwardly projecting side walls, the cross-section of which corresponds to an outer fitting groove (4, 5) for the cover (3) and an inner fitting web (4, 5) runs. - 509821/0069 O ORIGINAL 9. Electrophoresis device according to claim 8, characterized in that the fitting webs (4, 5) of the side walls are provided with inner contacts (20)
and that each inner contact (20) is connected to an electrode (21, 22). 10. Electrophoresis device according to one of the preceding Claims, characterized in that the electrodes (21, 22) are platinum wires. 11. Electrophoresis device according to one of the preceding claims, characterized in that the cover (3) provided with Gtegsn (13, 19) on its inside is that in the attached state of the lid (3) sit on the slide (29; 37). 12. Electrophoresis device according to one of the preceding claims, characterized in that the power supply part (2) Contains a transformerless triac circuit. 509821/0069 BAD OR / GfNAL Blank page