SE503503C2 - Method and apparatus for automatically adjusting a light beam at a gel electrophoresis apparatus - Google Patents

Abstract

In a gel electrophoresis apparatus having a light source (7), whose light beam (6) is to be introduced into an electrophoresis gel (1) through one of its lateral edges to enable detection of at least one component which is migrating in the electrophoresis gel (1) and which is labelled with a fluorescent substance, a means (8, 9) is adapted to sweep the laser beam (6) back and forth across said one lateral edge of the electrophoresis gel (1) to introduce the light beam into the electrophoresis gel (1) at different points of incidence, and a sensor (13, 14, 15) is adapted to measure the intensity of the light beam (6) introduced at said different points of incidence after that, it at least partially, has passed through the electrophoresis gel (1), and to lock the light beam (6) at the point of incidence at which the highest light intensity is measured.

Description

15 20 25 30 35 503 503 2 has passed the electrophoresis gel and that the light beam is locked at the point of incidence which gives the highest measured brightness. The object is achieved by means of the device according to the invention mainly in that a means is arranged to sweep the light beam back and forth across said one side edge of the electrophoresis gel to guide the light beam into the electrophoresis gel at different points of incidence and that a sensor is arranged to sense different angles of incidence input the light beam after it has at least partially passed through the electrophoresis gel and lock the light beam at the point of incidence that gives the highest measured brightness.

DESCRIPTION OF THE FIGURES The invention is described in more detail below with reference to the accompanying drawing, in which the single figure schematically shows a block diagram of an embodiment of a device according to the invention at an electrophoresis gel shown in end view from above.

DESCRIPTION OF PREFERRED EMBODIMENTS The drawing shows an end view from above of an electrophoresis gel 1 between glass sheets 2 and 3, which are separated by spacer elements 4 and 5, which in the embodiment shown are both light transmissive.

The gel 1 shown is intended for separating a component mixture, e.g. nucleic acids, and is associated in a manner known per se with an upper buffer liquid vessel (not shown) and a lower buffer liquid vessel (not shown).

When separating nucleic acids, e.g. for sequencing, apply with a fluorescent substance labeled samples of these at the upper end of the gel 1. The test components then migrate downwards in the gel 1 under the action of an electric field.

At a predetermined location along the gel 1, a light beam, which in the embodiment shown consists of a laser beam 6, is fed through the light-transmissive spacer element 4 and into the gel 1 through one side edge to be assisted by detectors (not shown) enable the detection of the above-mentioned samples migrating in gel 1.

The laser beam 6 is generated in the embodiment shown by a laser 7 and is applied to the gel 1 by means of a mirror 8.

For automatic adjustment of the laser beam 6 to give maximum brightness in the gel 1, according to the invention a motor 9 is arranged to move the mirror 8 back and forth across the side edge of the gel 1 as indicated by the arrow 10 in and to sweep the laser beam 6 back and forth across the distance. the side edge of the element 4 and thus the gel 1 as indicated by the arrow 11 and thereby feed the laser beam 6 into the gel 1 at different points of incidence.

The motor 9 for moving the mirror 8 is activated by means of a control unit 12 which is provided for this purpose with a start button (not shown).

The laser beam 6 coming from the mirror 8 passes through the gel 1 and emerges in the embodiment shown from the gel 1 through its other side edge via the light-transmitting spacer element 5. In order to determine there when the laser beam 6 is optimally aligned, i.e. for which point of incidence the laser beam 6 emanating from the gel 1 has a brightness maximum, there is at the other side edge of the gel 1 a sensor 13, which is arranged to detect the brightness of the laser beam 6 during the scanning movement of the laser beam 6 and emit a signal proportional to the brightness unit 12. is arranged to stop the motor 9 and thus the mirror 8 in the position where the sensor 13 measured the maximum of the brightness of the laser beam 6.

This provides an automatic setting of the laser beam 6 to the point of incidence for which the laser light emanating from the gel 1 has a maximum brightness.

Gel electrophoresis apparatus are also known, in which the laser beam is guided into the gel from the laser via a spacer element without the aid of any mirror.

In such an embodiment, the motor corresponding to the motor 9 shown in the drawing must be arranged to move the laser instead of the mirror in order to feed the laser beam at different points of incidence across one side edge of the gel. This embodiment (not shown) otherwise corresponds to the embodiment shown in the drawing.

The sensing of the brightness of the laser beam 6 does not necessarily have to take place in the manner shown in the drawing with the sensor 13 placed at the other side edge of the gel 1.

As indicated by the sensors indicated in the form of dashed blocks 14 and 15, for example according to another embodiment the sensor 14 may be arranged to measure the intensity of the light scattered by the spacer element 5 in case it is opaque, while the sensor 15 according to a further embodiment shape can be arranged to measure the intensity of the light scattered in the gel 1 after the laser beam has at least partially passed through the gel 1.

By means of the device according to the invention, a gel electrophoresis apparatus has thus been provided, in which the adjustment of the point of incidence of the laser beam 6 in the gel 1 takes place automatically to give maximum brightness in the gel 1.

Claims (10)

l0 15 20 25 30 35 503 503 PATENT REQUIREMENTS A method of a gel electrophoresis apparatus having a light source (7), the light beam (6) of which is intended to be guided into an electrophoresis gel (1) through one side edge thereof to enable detection of at least one component migrating in the electrophoresis gel (1), which is marked with a fluorescent substance, characterized in that - that the light beam (6) is swept back and forth across said one side edge of the electrophoresis gel (1) to guide the light beam (6) into the electrophoresis gel (1) at different points of incidence, - that the brightness of the light beam (6) input at different points of incidence is measured after it has at least partially passed the electrophoresis gel (1) and - that the light beam (6) is read at the point of incidence which gives the highest measured brightness. Method according to claim 1, wherein the light beam (6) is guided into the electrophoresis gel (1) by means of a mirror (8), characterized in that the mirror (8) is moved to sweep the light beam (6) across said one side edge of the electrophoresis gel (1). Method according to claim 1, characterized in that the light source is moved in order to sweep the light beam (6) across said one side edge of the electrophoresis gel (1). Device in a gel electrophoresis apparatus with a light source (7), the light beam (6) of which is intended to be guided into an electrophoresis gel (1) through one side edge thereof to enable detection of at least one component migrating in the electrophoresis gel (1), which is marked with a fluorescent substance, characterized in that - a means is arranged to sweep the light beam (6) back and forth across said one side edge of the electrophoresis gel (1) to guide the light beam (6) into the electrophoresis gel (1) at different points of incidence and - that a sensor (13, 14, 15) is arranged to sense the brightness of the light beam (6) fed in at different angles of incidence after it has at least partially passed through the electrophoresis gel (1) and to lock the light beam (6). ) at the point of incidence which gives the highest measured brightness. Device according to claim 4, wherein the light beam (6) is guided into the electrophoresis gel (1) by means of a mirror (8), characterized in that said means is a mirror moving means (9), which is arranged to move the mirror (8) in order to sweeping the light beam (6) across said one side edge of the electrophoresis gel (1). Device according to claim 4, characterized in that said means is a light source moving means, which is arranged to move the light source in order to sweep the light beam (6) across said one side edge of the electrophoresis gel (1). Device according to one of Claims 4 to 6, characterized in that the sensor (13) is arranged at the opposite side edge of the electrophoresis gel (1) for sensing the brightness of the light beam (6) after it has passed through the electrophoresis gel (1). Device according to any one of claims 4 - 6, wherein the electrophoresis gel (1) is arranged between glass sheets (2, 3), which are separated by means of spacer elements (4, 5) along both side edges of the electrophoresis gel (1), where the spacer element (4) which the light beam (6) is guided into the electrophoresis gel (1), is light transmissive, characterized in that the opposite spacer element (5) is opaque and that the sensor (14) is arranged to measure the brightness of the light scattered by this spacer element (5). Device according to one of Claims 4 to 6, characterized in that the sensor (15) is arranged to measure the brightness of the light scattered by the electrophoresis gel (1). 503 503 7 Device according to one of Claims 4 to 9, characterized in that the light beam (6) is a laser beam.