JP3071908B2 - Automatic electrophoresis device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic electrophoresis apparatus.

[0002]

2. Description of the Related Art Conventionally, for example, electrophoresis has been used for testing serum proteins. Inspection by the electrophoresis method is usually performed using an automatic electrophoresis apparatus.
The automatic electrophoresis apparatus includes, for example, a buffer wetting unit that wets the support in a buffer, a sample application unit that applies a sample to the support, and an electrophoresis unit that supplies electricity to the support on which the sample is applied. A post-processing section that stains, decolorizes, and dries the support after the electrophoresis and a photometric section that meters the stained electrophoretic image are sequentially connected to each other so that the support is transported sequentially. Have been.

[0003] An inspection by an electrophoresis method using an automatic electrophoresis apparatus having such a configuration is performed as follows. First, the support is supplied to the buffer wet part,
The support is wetted with buffer by passing between rollers wetted with buffer. Thereafter, the support is transported to the sample application section. Next, in the sample application section, an applicator having a plurality of pen tips that hold an appropriate amount of the sample at the tip is provided.
A plurality of specimens are simultaneously coated on the surface of the support. Next, the support on which the sample is applied is transported to the electrophoresis unit, where a current is applied to the support to cause the sample to migrate. Further, in the post-processing section, the support is sequentially subjected to staining, decolorization, and drying treatment, and a partial image of the sample is stained to obtain an electrophoretic image. Thereafter, the support is transported to a photometric unit, and the electrophoresis image is photometrically scanned by a densitometer.

Conventionally, the number of specimens set in advance (for example, 10, 15, 20,
A support cut to a predetermined length according to 30, 40 samples (hereinafter referred to as a specified number of samples) is supplied to the buffer wetted portion, or a roll-shaped support is provided in front of the buffer wetted portion. After cutting at a preset length by the support cutting section,
It is supplied to the buffer solution wet part.

[0005]

However, in an actual test, when the test is performed with the specified number of samples as one unit and the test is terminated or interrupted, it is necessary to test less than the specified number of samples. Occurs. In such a case, in the above-described automatic electrophoresis apparatus, even when testing one sample, a support having a preset length according to the specified number of samples must be used. For this reason, there is a useless portion where the sample is not applied to the support. The support is relatively expensive, and the test cost per sample is high.

Further, in the electrophoresis section, when the area of the support is large, the current to be passed through the support (hereinafter, referred to as electrophoresis current) must also be increased. Therefore, the larger the area of the support is, the more easily the buffer solution deteriorates.
In the post-processing section, the larger the area of the support is, the more the required staining liquid is. For this reason, when testing a sample smaller than the specified number of samples, the buffer solution and the staining solution also waste.

Further, in a conventional automatic electrophoresis apparatus, photometry of an electrophoresis image is also performed according to a specified number of samples.
For this reason, even when the number of samples is smaller than the specified number of samples,
As usual, photometric scanning is performed by the densitometer for the specified number of samples, so that operation time is wasted. Further, in the conventional automatic electrophoresis apparatus, in order to solve such a problem, it is necessary to wait for the test until the number of samples reaches a specified number of samples, and there is a problem that the test time is further extended.

The present invention has been made in view of the above points, and provides an automatic electrophoresis apparatus capable of reducing the cost required for a test per sample and reducing the test time.

[0009]

SUMMARY OF THE INVENTION According to the present invention, there is provided a support supply section for supplying a long support body, and a support for obtaining a support sheet by cutting the long support body supplied from the support supply section. A cutting unit, a buffer wetting unit for wetting the support sheet in a buffer, a sample application unit for applying a plurality of samples on the surface of the support sheet wet with the buffer, and the sample is applied. An electrophoresis section for applying an electric current to the support sheet to migrate the sample, and a post-processing section for sequentially performing staining, decolorization and drying on the support sheet after electrophoresis to obtain an electrophoretic image, and A photometric unit that photometrically measures an electrophoretic image, and controls the support supply unit and the support cutting unit based on the number of specimens that are arbitrarily input and applied to one support sheet to control the support elongate body. Control for cutting into lengths according to the number of samples To provide an automatic electrophoresis apparatus comprising and.

[0010]

According to the automatic electrophoresis apparatus of the present invention, the control section controls the support supply section and the support cutting section so that the long support can be applied in accordance with the number of samples to be applied per support sheet. Can be cut to length. Accordingly, the specimen can be inspected according to the electrophoresis method using a support sheet having an appropriate length according to the number of specimens, so that waste of the support can be significantly reduced. In addition, it is sufficient to perform electrophoresis and staining as needed for the support sheet according to the number of samples to be actually tested, and it is sufficient to perform photometry only for the number of samples to be actually tested. The liquid and operation time can be significantly reduced.

[0011]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is an explanatory diagram showing an example of the automatic electrophoresis apparatus of the present invention.

In FIG. 1, reference numeral 11 denotes a roll around which a long support 12 made of, for example, cellulose acetate paper (AES310) is wound. Above the roll 11, a feed roller unit 13 that feeds the support elongate body 12 through between the upper roller 13a and the lower roller 13b is disposed. A stepping motor 14 is connected to a rotation shaft of the lower roller 13b.

A cutter 15 for cutting the long support body 12 to form a support sheet 17 is arranged in the transport direction of the long support body 12 of the feed roller unit 13. The cutter 15 is driven or stopped by a control signal from the control unit 16.

Further, at the subsequent stage of the cutter 15, there is provided a support wetting unit 19 for wetting the support sheet 17 with a buffer solution 18 made of, for example, veronal / veronal soda solution. The supporting member wet portion 19 includes a roller 21 disposed so that substantially half is immersed in the buffer solution 18 accommodated in the case 20, and a roller 2 disposed above the roller 21.
Consists of two. The surfaces of the rollers 21 and 22 are formed of sponge.

A buffer 18 is provided downstream of the support wetting section 19.
A sample application unit 23 is provided for applying a sample to the support sheet 17 moistened on the substrate. The sample application unit 23
An endless belt 26 on which the moistened support sheet 17 is placed and which is conveyed to an electrophoresis unit 28 disposed at a later stage as necessary, and a tray 24 for accommodating a plurality of samples.
And the sample contained in the tray 24 is adhered to the belt 2.
6 comprises an applicator 25 for applying a support sheet 17 placed on the support sheet 6. As shown in FIG. 2, the tray 24 is provided with concave portions 49 (for example, 15) for accommodating the specimen, which are sequentially arranged in the longitudinal direction.

An electrophoresis section 28 for migrating the sample applied to the support sheet 17 is provided at a stage subsequent to the sample application section 23. The electrophoresis unit 28 includes an endless belt 29 that conveys the support sheet 17, a support elevating unit 30 that elevates and lowers the support sheet 17 disposed below the belt 29, and a filter paper 31 on the support sheet 17. A buffer solution storage tank 32 through which an electrophoresis current flows.

In the following, referring to FIG.
Will be described in more detail. In the drawing, reference numerals 51 and 52 denote a pair of cradles provided below both edges of the support sheet 17 along the transport direction thereof. The receiving tables 51 and 52 are long plate-shaped members. Further, the receiving tables 51 and 52 are attached to a support arm 53, and the support arm 53 is attached to a column 54 that can move up and down by driving means (not shown).

Buffer solution storage tanks 32a and 32b are disposed below both sides of the support elevating section 30 having such a configuration. The filter paper 3 is provided on the upper surfaces of the receiving tables 51 and 52.
One end of each of 1a and 31b is placed, and filter papers 31a and 3b are placed.
The other end of 1b is immersed in the buffer 55 stored in the buffer storage tanks 32a and 32b, respectively.

Further, electrodes 56 and 57 are provided on the bottom inner walls of the buffer solution storage tanks 32a and 32b, respectively. The electrodes 56 and 57 are connected to a DC power supply 59 via a switch 58.

A post-processing unit 34 is provided downstream of the electrophoresis unit 28 described above. The post-processing unit 34 has a support vertical hanging type processing tank 33 for sequentially performing dyeing, decoloring, and drying on the support sheet 17 on which electrophoresis has been performed.

Further, at the subsequent stage of the post-processing section 34, a densitometer 35 for photometrically scanning the electrophoretic image obtained by the post-processing section 34 is provided. The densitometer 35 is provided with a clarifying liquid tank 37 containing a clarifying liquid 36 for clarifying the support sheet 17, and a plurality of dentistometers 35 sequentially provided so as to move the support sheet 17 while being immersed in the clarifying liquid 36. Guide rolls 38a, 38b. 38c and 38d. Further, the densitometer 35 includes a guide roll 38
The lamp 39 and the lens barrel 40 for irradiating the electrophoretic image on the surface of the support sheet 17 located between the positions b and c with the measuring light, and the light receiving unit 41 for measuring the light transmitted through the electrophoretic image Have.

Further, the cutter 15 and the buffer liquid wetting section 1
9, between the buffer wetting section 19 and the sample application section 23, between the sample application section 23 and the electrophoresis section 28, and between the electrophoresis section 28 and the densitometer 35, Sensors 42, 43, 44, and 45 for detecting passage of the end of the support sheet 17 are disposed on the path. Each sensor 42, 43, 44, 45
Outputs a detection signal to the control unit 16.

Hereinafter, the operation of the automatic electrophoresis apparatus 10 having the above configuration will be described. First, a long support body 12 having a length set by a control unit 16 described later is fed from a roll 11 by a feed roller unit 13. The sent support elongate body 12 is cut by a cutter 15 to form a support sheet 17. Next, the support sheet 17
Is made to pass between the rollers 21 and 22 by the buffer wetting section 19 to be wetted by the buffer 18. Thereafter, the support sheet 17 is transported to the sample application section 23.

In the sample application section 23, the recess 4 of the tray 24
The sample accommodated in 9 is applied by the applicator 25 on the surface of the support sheet 17 transported on the belt 26 so as to be sequentially arranged in the transport direction of the support sheet 17. Next, the support sheet 17 coated with the sample is transported to the electrophoresis unit 28.

In the electrophoresis section 28, the supporting columns 54 are pushed upward to raise the receiving tables 51 and 52, and both edges of the support sheet 17 placed on the belt 29 are lifted.
At this time, one end of the filter papers 31a and 31b is sandwiched between the support sheet 17 and the receiving tables 51 and 52. In this state, an electrophoresis current is applied between the electrodes 56 and 57, and the sample applied to the support sheet 17 is electrophoresed. After the electrophoresis for a predetermined time, the support sheet 17
Into the post-treatment tank 33, dyeing, decoloring,
The drying process is sequentially performed to obtain an electrophoretic image of each sample. Thereafter, in the densitometer 35, the support sheet 17
Is immersed in the clearing liquid 36 to make it transparent, and photometric scanning of an electrophoretic image is performed according to a conventional method.

Hereinafter, the control of the automatic electrophoresis apparatus 10 will be described in detail with reference to FIG. In the figure, 61
Denotes a support sheet forming unit including the roll 11, the feed roller unit 31, the stepping motor 14, the cutter 15, and the buffer liquid wetting unit 19.

The control section 16 includes a support sheet forming section 61,
A control circuit 62 outputs control signals to the sample application unit 23, the electrophoresis unit 28, the post-processing unit 34, and the densitometer 35, and receives a sample signal from a sensor or the like provided in each processing unit. The control circuit 62 includes an arithmetic processing circuit 6
The number of samples, which will be described later, is input from the input device 64 via the input device 3. Further, the arithmetic processing circuit 63 includes a recording device 65,
The storage device 66 and the display device 67 are connected. The control unit 16 controls each processing unit as described below.

(1) The support sheet preparing section 61 controls the length of the support sheet 17 as follows. First,
An arbitrary number of samples x is input to the input device 64. Control circuit 6
2 outputs a control signal to the stepping motor 14 to drive it, and starts feeding the long support body 12. Then, the control circuit 62 outputs a control signal to the stepping motor 14 based on an output signal of the operation time or the number of pulses of the stepping motor 14 after the sensor 42 detects the distal end portion of the support elongate body 12 and supports the same. The stepping motor 14 is stopped when the long body 12 has been sent out by the length corresponding to the number x of the samples. After this, cutter 15
However, according to the output signal from the control circuit 62, the support elongate body 12 is cut, and the support sheet 17 is obtained. For example,
When the number of samples x is 15 samples, the support elongate body 12 is
It is preferable to control so as to cut to 14.0 cm.

When there is no input for cutting the support elongate body 12, the number of samples x is set to the maximum number of testable specimens x ₁ and the length corresponding to the maximum number of specimens x ₁ is set. It is particularly preferable that the support elongate body 12 is cut so as to cut the support elongate body 12 to a length corresponding to the input number of samples x ₂ only when an input is made. For example, when the maximum number of samples x ₁ is 15 samples, the number of samples to be measured is 40
In the case of a sample, the support elongate body 12 is cut into a length (for example, 14.0 cm) corresponding to 15 samples without inputting anything for the first sheet and the second sheet. Then, since the number of remaining samples becomes ten, the third sheet has the number of samples “x”.
= 10 "and input the length corresponding to 10 samples (for example,
It can be controlled to cut to 10 cm).

In place of the operator inputting the number x of samples, the number of samples contained in the tray 24 is detected by a sensor, and the support body 12 is cut into a length corresponding to the detected number of samples. Can be controlled as follows.

(2) The step of applying the sample to the support sheet 17 in the sample application section 23 is controlled by the control circuit 62 according to a known method. Here, the stop position of the support sheet 17 is determined by the control circuit 62 when the sensor 43 detects the end of the support sheet 17 by the sensor 43 for a predetermined time.
6 is stopped and controlled. In the sample application part 23, when the number of specimens x input is less than the maximum number of samples x ₁ also performs exactly the same operation as usual. For example, the maximum number of samples x ₁ is 1
If in 5 specimens is the actual number of samples x ₂ is 10 samples, although the No.1~No.10 recess 49 of the tray 24 being accommodated specimen recess 49 No.11 ～Nanba15 Does not contain a sample, but there is no hindrance to the application operation, and the applicator 25 only operates empty.

(3) The electrophoresis operation of the sample in the electrophoresis section 28 is controlled by the control circuit 62 according to a known method. Here, the stop position of the support sheet 17 is controlled by the control circuit 62 stopping the belt 29 after a certain time has passed since the sensor 44 detects the end of the support sheet 17. At this time, preferably, the support sheet 17 is stopped at substantially the center of the electrophoresis section 28 based on the input number x of the samples in order to prevent the formed electrophoresis image from being bent or distorted. Control. Further, in order to perform electrophoresis of the sample under the same conditions, the support sheet 1
It is preferable to control the electrophoresis current according to the length of 7.
That is, based on the input number of samples x, the control circuit 6
2 outputs a control signal to the electrophoresis unit 28 to control the migration current. For example, when the number of samples is 15, that is, when the length of the support sheet 17 is 14 cm, it is optimal to control the electrophoresis current to 9 mA. The length of the sheet 17 is 10cm
Is preferably controlled to 6.4 mA. Therefore, it is particularly preferable that the value of the migration current per unit length is set in advance, and the migration current is automatically controlled based on the number of samples x input by the control circuit 62.
For example, in the above-described example, it is set to 0.64 mA / cm.

(4) Dyeing and decoloring in the post-processing section 34
The drying process is controlled by the control circuit 62 according to a known method. Here, the conveyance to the post-processing tank 33 is stopped and controlled after a certain time has passed since the sensor 45 detects the end of the support sheet 17.

(5) The photometric scanning of the electrophoretic image by the densitometer 35 is controlled by the control circuit 62 according to a known method. Here, it is preferable that the photometric scanning is controlled so as to be performed by the number x of the input samples.

As described above, according to the automatic electrophoresis apparatus 10, the support sheet 17 can be formed with a length corresponding to an arbitrary number x of samples. Thus, for example, when the maximum number of samples x ₁ is 15, when 155 samples are sequentially tested, when the samples to be measured on the 16th sheet are 5,
The sixteenth support sheet 17 can be cut to a length corresponding to five samples. As a result, the support sheet 17 can be saved by 10 samples. This effect is the maximum number of samples x
_{The more one, the} more remarkable.

Further, if necessary, no matter what stage the inspection is terminated or interrupted, it is possible to prevent the support sheet 17 from being wasted. As a result, the number of samples is the maximum number of samples x
There is no need to wait for the operation until it becomes ₁ .

In addition, it is possible to control the migration current and the number of times of photometric scanning according to the number of samples. In addition, since the support sheet 17 having an appropriate length according to the number of samples can be used, the consumption of a buffer solution, a staining solution, and the like per sample can be reduced. As a result, the cost required for the inspection and the inspection time can be reduced.

In this embodiment, the automatic electrophoresis apparatus 10 in which the sample application section 23, the electrophoresis section 28 and the processing section 34 are separately provided has been described as an example.
These processing units are integrated into the processing unit 110 as shown in FIG.
May be provided. That is, the outer housing 1
00, a support sheet 10 moistened with a buffer solution.
An inverted triangular belt section 102 for holding and conveying the belt 1 is provided. An electrophoresis unit 104 is arranged above the belt unit 102. Above the electrophoresis unit 104, an applicator 105 that can enter and exit the outer casing 100 via a shutter 111 is provided. Belt part 1
Below the upper surface of 02, a lift unit 103 that moves the support sheet 101 up and down to the vicinity of the electrophoresis unit 104 and the applicator 105 via the shutter 106 is arranged. On the other hand, a shutter 1 is provided below the belt portion 102.
07, a post-treatment tank 10 that can enter and exit the outer casing 100.
8 are provided. In the post-treatment tank 108, a processing solution 109 necessary for dyeing and decoloring treatment is appropriately selected and stored. Further, ventilation holes 112 and 113 for performing a drying process are provided on the lower surface of the outer housing 100.

The processing unit 110 having such a configuration is
The same effect can be obtained by controlling the automatic electrophoresis apparatus provided in place of the sample application section 23, the electrophoresis section 28, and the post-processing section 34 in the same manner as in the above-described embodiment.

[0040]

As described above, according to the automatic electrophoresis apparatus of the present invention, the support supply section and the support cutting section are controlled by the control section, so that the long support body can be replaced with one support sheet. It can be cut into lengths according to the number of samples to be applied around. Thereby, the support can be saved, and by performing the inspection using the support sheet having an appropriate length, the consumption of the processing solution, the migration current, the operation time, and the like can be reduced. As a result, a remarkable effect is exhibited such that the inspection by the electrophoresis method can be efficiently performed at lower cost.

[Brief description of the drawings]

FIG. 1 is an explanatory view showing an example of the automatic electrophoresis apparatus of the present invention.

FIG. 2 is an explanatory diagram showing a tray according to the embodiment.

FIG. 3 is an explanatory diagram showing a main part of an electrophoresis unit of the embodiment.

FIG. 4 is a schematic diagram showing a control unit of the automatic electrophoresis apparatus of the embodiment.

FIG. 5 is an explanatory view showing a main part of another embodiment of the automatic electrophoresis apparatus of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Automated electrophoresis apparatus, 11 ... Roll, 12 ... Long support body, 13 ... Feed roll part, 15 ... Cutter, 16 ...
Control unit, 19: support wetting unit, 23: sample application unit, 28
... Electrophoresis part, 34 ... Post-processing part, 35 ... Densitometer, 42,43,44,45 ... Sensor.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-50-12992 (JP, A) JP-A-62-112045 (JP, A) JP-A-61-213658 (JP, A) JP-A-53-123 32093 (JP, A) JP-A-55-152450 (JP, A) JP-A-50-129392 (JP, A) JP-A-62-112045 (JP, A) JP-A-61-213658 (JP, A) JP-A-53-32093 (JP, A) JP-A-55-152450 (JP, A) JP-A-3-85567 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) G01N 27/447

Claims (1)

(57) [Claims] 1. A support supply section for supplying a support body elongate body, a support cut section for cutting a support elongate body supplied from the support supply section to obtain a support sheet, and the support sheet A buffer solution wetting unit that wets the sample with a buffer solution, a sample application unit that applies a plurality of samples on the surface of the support sheet wetted with the buffer solution, and applying a current to the support sheet coated with the sample. An electrophoresis section for electrophoresing the sample, a post-processing section for sequentially performing staining, decoloring, and drying on the support sheet after electrophoresis to obtain an electrophoresis image, and a photometry section for photometry of the obtained electrophoresis image And controlling the support supply section and the support cutting section based on the number of specimens to be applied per one of the support sheets which are arbitrarily input, and setting the support elongated section to a length corresponding to the number of specimens. Electrophoresis equipped with a control unit for cutting into pieces apparatus.