DE1220083B - Device for testing biochemical reactions in bacteria - Google Patents

Description

Device for testing biochemical reactions in bacteria The The invention relates to a device that enables simple and rapid testing of biochemical Reacts on bacteria, predominantly on non-proliferating ones. this applies especially when the reactions are one of the different in substrate solutions bacteria cultures with a larger number of reagents at the same time should be checked. The examination of such reactions requires after the hitherto known method takes a lot of time and is only very cumbersome feasible.

The device according to the invention for testing biochemical reactions consists of at least one, preferably a very large number of chambers, each chamber composed of several sub-chambers lying along a common center line and the sub-chambers or the partition walls between the sub-chambers are arranged in such a way and are designed that when pivoting the chamber about a to the center line of the Sub-chambers vertical axis initially the contents of the top chamber into the adjacent one flows, then the contents of this chamber together with that of the first-mentioned chamber in the next and so on. Such a device is permitted in the first Partial chamber together with a substrate solution, e.g. B. a sugar solution with phosphate buffer, introduced bacterial cultures successively with different, stored separately Mix the reagents in a desired order, and so each one to carry out the required test in the shortest possible time. The invention also allows extensive automation of the tests.

A device according to the invention preferably consists of one Glass plate or a plate made of transparent plastic, which against the common organic solvents, d. H. Insensitive to strong acids and bases is. In the plate there are a larger number of chambers of the described type lying next to one another Kind trained. Such a plate is made of transparent through a cover plate Material can be covered, with the sealing of the cover plate and base plate using rubber, for example by silicone rubber can be made. The attachment of the Cover plate on the base plate is preferably done by clips. In the base plate can be accommodated with advantage chambers of different training, z. B. Chambers, which differ in terms of the number of sub-chambers. It can also be used herein Such chambers can be attached, which consist of two mutually perpendicular Assemble chambers. This gives you the opportunity to follow a first Check to carry out further reactions or in the connected second chamber to let certain gases develop and / or be absorbed and so the processes in to influence the first chamber.

Further advantages of the device according to the invention are that the turnover of the substrate can be easily controlled and influenced and a minor one No contamination by foreign germs in non-proliferating reaction batches interferes, because during the relatively short test duration in the substrate none of the reaction process influencing multiplication of foreign germs is to be expected. So it can be in most Cases of harvesting the germs to be examined can be carried out in a non-sterile manner.

An embodiment of the invention is shown below with reference to the Drawing described. In this shows A b b. 1 is a plan view of a device according to the invention with a larger number of chambers, A b b. 2 to 4 cuts through the A b b. 1 according to the section lines II-II, III-III and IV-IV and A b b. 5 shows a section along line V-V of A b b. 2. As the drawing shows, there is the device from a glass plate 1, which has a larger number of chambers, in Embodiment twenty chambers. There are four different types of chambers, which are designated with 2 to 5. The plate 1 and thus all the chambers are covered together by a cover plate 6. Between the plates 1 and 6 lies a rubber seal 7, which also seals all the chambers against each other. Both Plates 1 and 6 are held together by clips 8. All chambers are Surrounded within the seal 7 'by an annular groove 9. This groove serves as a Protection against overflow the chamber fillings when opening the Device, d. H. at the purchaser of the cover 6, but it can also be used for control the water and gas density within the chambers or to accommodate one Serve adsorbent.

The chambers 2 are composed of four sub-chambers a, b, c, d . These chambers are separated by walls 10, 11 and 12, which are also designed as an overflow. The inclination of the inclined wall parts take t from the chamber to d starting, that is, during the pivoting of the plate 1 in the A b b. 2 left long edge of the board. 1 first the contents of chamber d flow into chamber c, then the contents of both from chamber c into chamber b and finally the entire contents of this chamber into chamber a.

The chambers -4 have, like A b b. 4 shows only three chambers a, b and d. The simple round chambers 5 are attached coaxially with these chambers. The chamber 3 is composed of two sub-chambers which are perpendicular to one another, one sub-chamber corresponds to the usual chamber 2, as shown in A b b. 2 is shown. The chamber part standing perpendicular to this with the walls 13 and 16 has a chamber e and a chamber a ', which corresponds to the chamber a. When the plate is pivoted, the chambers d, c, b empty into chamber a in the sequence described above. If, on the other hand, the plate 1 is pivoted about an axis perpendicular to the first axis, the contents flow from the chamber a into the chamber e and finally into the chamber a '. This can be used to induce a desired evolution of gas in both chambers.

Like A b b. 2 shows, the sub-chamber d of one or some of the chambers 2 can be covered by a slide 14 . This slide is guided in grooves in the side walls of the chamber 2. It has a handle 15. These slides are advantageous when a gas development is to be observed in the sub-chamber d. Rising gas bubbles then collect under the slide.

As mentioned, the plate 1 is preferably made of glass. Has glass over plastic has the advantage that there is a heating of the reaction spaces, eg. B. of the sub-chambers a. Induction heating, for example, is used as heating with the help of an insulated metal ring. Glass can go further Easier to sterilize and is more transparent than plastic, so that the reactions can also be evaluated with the help of photocells in the fluoroscopic procedure.

To carry out the tests, chambers d are filled with a substrate solution and filled with the bacterial cultures to be examined. The fillings are in of the order of a few tenths of a milliliter. The chambers c and b take the desired reagents, the chambers a after completely tilting the plate 45 ° the substrate solution including the reagents. The chambers -2 can have two Take up reagents, chamber 3 only one. The chambers 5 are for secondary examinations determined, the chamber 3 allows the contents of chamber a with another To mix the reagent - and to carry out the second test in the chamber ä.

The combs can also contain a reagent. If, for example, the sub-chamber d contains the bacterial suspension and the substrate, e.g. B urea, the sub-chamber b can contain a manganese sulfate solution, the chamber c sodium hypochlorite and the sub-chamber a a phenolate solution. After sufficient incubation time, e.g. B. in a heated water bath, the plate is inclined successively by 45 °. The bacteria-substrate suspension flows with the reagents from d via c, b to a. In the present example, a green color appearing in a would indicate a positive failure of the reaction.

The partial chambers are preferably filled automatically. To the cover plate 6 is placed on the filling and the device is closed. Thereafter If necessary, after appropriate pre-treatment, the examination can be carried out in all chambers carried out at the same time. The device is equally suitable for diagnostics in the bacteriological laboratory for bacteriophysiological examinations and in cases where monitoring of the biochemical performance of Germination is required. An automation of the individual work steps, started The system allows everything from filling the plate to evaluating the results large series of experiments, as z. B. when dealing with questions related to bacterial systematics and genetics are necessary.

Claims (11)

Claims: 1. Device for testing biochemical reactions in bacteria, characterized by a chamber (2, 3, 4) composed of several sub-chambers (a, b, c, d) lying along a common center line, in which the dividing walls (10, 11 .... ) are designed as an overflow between the sub-chambers (a, b, ...) and the inclination of the overflow surfaces increases or decreases in the direction of the common center line. 2. Apparatus according to claim 1, characterized in that the bottom surfaces of the sub-chambers (a, b, ...) Are arranged at different heights. 3. Apparatus according to claim 2, characterized in that one or more of the sub-chambers (d) can be closed by inserted or insertable plates (14) . 4. Apparatus according to claim 1, characterized in that the chamber (2, 3,...) Is rod-shaped with a rectangular cross-section and the sub-chambers (a, b, ...) Are arranged side by side in the longitudinal direction of the chamber. 5. Apparatus according to claim 4, characterized in that the chamber (2, 3 .... ) consists of glass or a transparent plastic and carries a removable transparent plate (6) on its top. 6. Device according to claim 5, characterized by one between the chamber and the cover plate lying rubber plate (7) and the chamber floor and the cover plate encompassing clamps (8th). 7. Apparatus according to claim 1 and 2, characterized in that the wall of the chamber (2, 3,...) Carries a channel (9) surrounding all sub-chambers (a, b, ...) And extending from the surface. B. contraption according to claim 1, characterized in that several chambers in one plate (1) (2, 3, 4,...) Formed side by side and by a common plate (6) are covered. 9. Apparatus according to claim 8, characterized in that the chambers (2, 3,...) Formed in a common plate (1) differ in terms of the number and position of the sub-chambers (a, b, ...) . 10. Device according to claim 1, characterized in that two chambers with perpendicular mutually standing center lines are arranged to each other that both chambers have a common sub-chamber (a). 11. The device according to claim 8 and 10, characterized in that in addition to the chambers (3) sub-chambers (d, c, a) and independent chambers (5) are formed in the common plate (1).