CN107907396A - A kind of biological tissue's active immunity histochemical staining system - Google Patents

Abstract

An automatic immunohistochemical staining system for biological tissue relates to biological tissue culture equipment. The invention solves the technical problems of manual operation of existing immunohistochemical experiments, which is time-consuming and laborious, and is not suitable for thick biological tissue immunohistochemistry. The invention comprises a glass dyeing tube, a primary antibody storage tank, a secondary antibody storage tank, a PBT buffer solution storage tank, a formaldehyde fixative liquid storage tank, a liquid inlet pipe, a liquid outlet pipe, several connecting pipes and a waste liquid tank; One end of the glass dyeing tube is open, and a sealing plug is provided at the opening, and a liquid inlet hole and a liquid outlet hole are arranged on the sealing plug, and a liquid outlet pipe protection cavity is provided on the bottom side of the glass dyeing tube cavity, and the liquid outlet A number of through holes are arranged on the side wall of the tube protection chamber. The invention adopts a special glass staining tube, which can place thicker biological tissues in the staining cavity for immunohistochemical staining experiments, and automatically completes the immunohistochemical process.

Description

A biological tissue automatic immunohistochemical staining system

technical field

The invention belongs to the technical field of biological tissue culture equipment, in particular to an automatic immunohistochemical staining system for biological tissue.

Background technique

Immunohistochemistry is the application of the basic principle of immunology—antigen-antibody reaction, that is, the principle of specific combination of antigen and antibody. Through chemical reaction, the chromogenic agent fluorescein, enzyme, metal ion, and isotope of the labeled antibody are developed to determine the color of the tissue. Intracellular antigenic polypeptides and proteins, for localization, qualitative and quantitative research.

The whole process of immunohistochemical experiment is not only cumbersome, but also requires manual sample addition and liquid replacement at regular intervals, which is time-consuming and labor-intensive, and is prone to shortcomings such as inaccurate sample volume.

An automatic immunohistochemical device for Drosophila wing buds that uses a special glass slide flat space. Although it can be operated automatically, it can only be used for immunohistochemical staining experiments on thin biological tissues, not for thicker biological tissues. For example, the brain tissue of Drosophila cannot be used for immunohistochemical staining experiments in the flat space of glass slides.

Contents of the invention

The purpose of the present invention is to overcome the shortcomings of the prior art, to provide an automatic immunohistochemical staining system for biological tissue, to solve the problem of manual operation of existing immunohistochemical experiments, which is time-consuming and laborious, and is not suitable for thicker biological tissue immunohistochemical staining technical problems.

The present invention is achieved through the following technical solutions:

An automatic immunohistochemical staining system for biological tissues, which includes glass staining tubes, primary antibody storage tanks, secondary antibody storage tanks, PBT buffer solution storage tanks, formaldehyde fixative liquid storage tanks, liquid inlet tubes, and liquid outlet pipe, several connecting pipes and waste tank;

One end of the glass dyeing tube is open, a sealing plug is provided at the opening of the glass dyeing tube, a liquid inlet hole and a liquid outlet hole are provided on the sealing plug, and a liquid outlet tube protection cavity is provided on the inner bottom side of the glass dyeing tube;

The primary antibody storage tank, the secondary antibody storage tank, the PBT buffer solution storage tank and the formaldehyde fixative liquid storage tank are arranged above one side of the glass staining tube, and the waste liquid tank is arranged under one side of the glass staining tube, The outlets of the primary anti-liquid storage tank, the secondary anti-liquid storage tank, the PBT buffer solution storage tank, and the formaldehyde fixative liquid storage tank are respectively connected to the liquid inlet pipe through the connecting pipe, and the liquid inlet pipe passes through the opening on the sealing plug. The liquid inlet hole extends into the glass dyeing tube, one end of the liquid outlet pipe passes through the liquid outlet hole on the sealing plug and extends into the protective chamber of the liquid outlet pipe, and the other end of the liquid outlet pipe is connected to the waste liquid tank;

The connecting pipes between the primary antibody liquid storage tank, the secondary antibody liquid storage tank, the PBT buffer solution liquid storage tank, the formaldehyde fixative liquid storage tank and the liquid inlet pipe are all equipped with micro-liquid control valves controlled by the single-chip microcomputer control module , the liquid outlet pipe is provided with a liquid suction pump controlled by a single-chip microcomputer control module;

The primary antibody liquid storage tank and the secondary antibody liquid storage tank are provided with a low-temperature control device controlled by a single-chip microcomputer control module, and an infrared temperature measuring probe is provided on the glass staining tube.

Further, the glass dyeing tube is fixed on a rocker shaker, and the rocker shaker is shaken at a certain frequency; the liquid inlet pipe and liquid outlet pipe are hoses.

Further, the outlet end of the liquid inlet pipe is bent towards the inner wall of the glass dyeing pipe.

Further, the side wall of the protective chamber of the liquid outlet pipe is provided with a number of small liquid holes to prevent the passage of biological tissues, and the outlet pipe located in the protective chamber of the liquid outlet pipe is provided with a filter.

The invention adopts a special glass staining tube, which can place thicker biological tissues in the staining chamber for immunohistochemical staining experiments, and automatically completes the immunohistochemical process; the setting of the sealing plug can realize the sealing of the staining tube to avoid external microorganisms Infection culture medium; primary antibody storage tank, secondary antibody storage tank, PBT buffer solution storage tank, formaldehyde fixative solution storage tank, connecting tube, micro liquid control valve, liquid inlet pipe, liquid outlet pipe and waste liquid tank The culture solution in the staining tube can be replaced according to the needs; especially, a micro-liquid control valve is set between the formaldehyde fixative, primary antibody, secondary antibody, PBT buffer solution, liquid storage tank and liquid inlet tube, and in the A suction pump is installed on the liquid outlet pipe to realize automatic operation; the low temperature control device on the primary antibody and secondary antibody storage tanks ensures that the antibodies will not deteriorate during the staining process. A temperature control system is installed on the glass staining tube to ensure that the primary antibody incubation is carried out at low temperature, and other steps are carried out at room temperature.

Description of drawings

Fig. 1 is a structural schematic diagram of a biological tissue automatic immunohistochemical staining system;

Fig. 2 is the structural representation of glass staining tube;

Fig. 3 is the right view of Fig. 2;

Figure 4 is a block diagram of the microcontroller control circuit.

Detailed ways

The present invention will be described in further detail below in conjunction with the accompanying drawings and embodiments.

As shown in Figures 1 to 3, a biological tissue automatic immunohistochemical staining system in this embodiment includes a glass staining tube 1, a primary antibody storage tank 10, a secondary antibody storage tank 11, and a PBT buffer solution storage solution Tank 12, formaldehyde fixative liquid storage tank 13, liquid inlet pipe 4, liquid outlet pipe 5, several connecting pipes 3 and waste liquid tank 6;

One end of the glass staining tube 1 is open, and the opening of the glass staining tube 1 is provided with a sealing plug 7, and the sealing plug 7 is provided with a liquid inlet hole 8 and a liquid outlet hole 9;

In order to prevent the biological tissue from being sucked into the liquid outlet pipe when the liquid is discharged, the bottom side of the glass staining tube 1 is provided with a liquid discharge pipe protection chamber 2;

The primary antibody storage tank 10, the secondary antibody storage tank 11, the PBT buffer solution storage tank 12 and the formaldehyde fixative liquid storage tank 13 are arranged above the glass staining tube 1 side, and the waste liquid tank 6 is arranged on the glass staining tube 1. Below one side of the staining tube 1, the outlets of the primary antibody storage tank 10, the secondary antibody storage tank 11, the PBT buffer solution storage tank 12, and the formaldehyde fixative solution storage tank 13 respectively pass through the connecting pipe 3 and the liquid inlet pipe 4 connected, the liquid inlet pipe 4 passes through the liquid inlet hole 8 on the sealing plug 7 and extends into the glass dyeing tube 1, and one end of the liquid outlet pipe 5 passes through the liquid outlet hole 9 on the sealing plug 7 and extends to the In the liquid outlet pipe protection cavity 2, the other end of the liquid outlet pipe 5 is connected to the waste liquid tank 6;

The first anti-liquid storage tank 10, the secondary anti-liquid storage tank 11, the PBT buffer solution liquid storage tank 12, the formaldehyde fixative liquid storage tank 13 and the connection pipe 3 between the liquid inlet pipe 4 are all provided with a single-chip microcomputer control module. Controlled micro-liquid control valve 14, the liquid outlet pipe 5 is provided with a liquid suction pump 15 controlled by a single-chip microcomputer control module;

The primary antibody storage tank 10 and the secondary antibody storage tank 11 are provided with a low-temperature control device controlled by a single-chip microcomputer control module, and an infrared temperature measuring probe 17 is provided on the glass staining tube 1 .

The glass dyeing tube 1 is fixed on a rocker shaker 16, and the rocker shaker shakes at a certain frequency; the liquid inlet pipe 4 and the liquid outlet pipe 5 are flexible pipes, which do not affect the shaking of the shaker.

The outlet end of the liquid inlet pipe 4 is bent to the inner wall of the glass dyeing pipe 1 to prevent the liquid from directly washing away the biological tissue and causing damage when the liquid is fed in.

The side wall of the outlet pipe protection chamber 2 is provided with a number of liquid-through holes that prevent the passage of biological tissues, and the outlet pipe located in the outlet pipe protection chamber 2 is provided with a filter to ensure that the liquid is smoothly drawn out of the glass. Stain tube.

As shown in Figure 4, the infrared temperature measuring probe 17 is connected with the single-chip microcomputer control module to measure the temperature in the glass dyeing tube 1 in real time, and the low-temperature control device of the first anti-liquid storage tank 10 and the secondary anti-liquid storage tank 11 is connected with the single-chip microcomputer The control module is connected, the data measured by the infrared temperature measuring probe is fed back to the single-chip microcomputer, and the single-chip microcomputer controls the low-temperature control device of the primary antibody liquid storage tank 10 and the secondary antibody liquid storage tank 11, so as to ensure that the incubation of the primary antibody is carried out at 4-6 °C. Other steps Carry out at around 25°C.

The use process of the present invention:

When in use, the wing buds dissected in phosphate buffer solution are transferred to the glass staining tube 1, the sealing plug 7 is tightly plugged, and the glass staining tube 1 is fixed on the rocker shaker 16, and the rocker shaker is pressed at a certain frequency shaking;

Through the microcontroller control circuit:

First open the micro liquid control valve 14 and the pump 15 on the connection pipe below the formaldehyde fixative liquid storage tank 13 to ensure that the glass staining tube 1 is filled with a certain amount of fixative liquid, then close the formaldehyde fixative liquid storage tank 13 on the lower connection pipe The miniature liquid control valve 14 and the suction pump 15 are fixed for 40-60 minutes;

Then, open the micro-liquid control valve 14 and the liquid pump 15 on the connecting pipe below the PBT buffer solution storage tank 12, and after the buffer solution continues to clean the formaldehyde fixative for 1 to 1.5 hours, close the connecting pipe below the PBT buffer solution storage tank 12 The miniature liquid control valve 14 and the suction pump 15 on the top;

Simultaneously open the micro liquid control valve 14 and the pump 15 on the connecting pipe below the primary antibody storage tank 10 to ensure that the glass staining tube 1 is filled with sufficient primary antibody solution and fully soak the biological tissue, then close the primary antibody storage tank 10 Connect the micro-liquid control valve 14 and the liquid suction pump 15 on the lower connection tube, and incubate for 8-12 hours. The temperature of the glass staining tube is controlled by a single-chip computer at 4-6°C.

Open the micro liquid control valve 14 and pump 15 on the connecting pipe below the PBT buffer solution storage tank 12 again, and after the buffer solution continues to wash the primary antibody solution for 1-1.5 hours, close the connecting pipe below the PBT buffer solution storage tank 12 The miniature liquid control valve 14 and the suction pump 15;

Simultaneously turn on the micro liquid control valve 14 on the connecting pipe below the secondary antibody storage tank 11 and the pump 15 on the outlet pipe 5 to ensure that a certain amount of secondary antibody solution fills the glass staining tube 1 and fully soaks the biological tissue, then close The micro liquid control valve 14 and the pump 15 on the connecting pipe below the secondary antibody liquid storage tank 10 are incubated for 1-1.2 hours;

Finally, turn on the micro liquid control valve 14 on the connecting pipe below the PBT buffer solution storage tank 12 and the pump 15 on the outlet pipe 5, and after the buffer solution continues to wash the secondary antibody solution for 1 to 1.5 hours, close the PBT buffer solution storage solution The miniature liquid control valve 14 and the suction pump 15 on the connection pipe below the tank 12 complete the experiment.

After the glass dyeing tube 1 is tightly plugged by the sealing plug 7, the glass dyeing tube 1 lumen, the liquid inlet pipe 4, and the liquid outlet pipe 5 form an airtight space, so that the liquid pump 15 can pump the liquid in the glass dyeing tube 1 cavity. Walk.

The present invention can be embodied in many forms without departing from the spirit or essence of the invention, so it should be understood that the above-described embodiments are not limited to the foregoing details, but should be interpreted broadly within the scope defined by the claims, so fall into the scope of the claims. Changes and modifications within the equivalent range thereof shall be covered by the claims.

Claims (4)

1. A kind of 1. biological tissue's active immunity histochemical staining system, it is characterised in that：Including glass decorating pipe (1), primary antibody liquid storage Tank (10), secondary antibody fluid reservoir (11), PBT buffer solutions fluid reservoir (12), formaldehyde fixer fluid reservoir (13), inlet tube (4), go out Liquid pipe (5), some connecting tubes (3) and waste liquid tank (6)；

   Glass decorating pipe (1) one end open, glass decorating pipe (1) opening are equipped with sealing-plug (7), the sealing-plug (7) inlet opening (8) and fluid hole (9) are equipped with, the interior bottom side of the glass decorating pipe (1) is equipped with outlet tube protection chamber (2)；

   The primary antibody fluid reservoir (10), secondary antibody fluid reservoir (11), PBT buffer solutions fluid reservoir (12) and formaldehyde fixer fluid reservoir (13) it is located above glass decorating pipe (1) side, the waste liquid tank (6) is located at (1) one side-lower of glass decorating pipe, the primary antibody The outlet point of fluid reservoir (10), secondary antibody fluid reservoir (11), PBT buffer solutions fluid reservoir (12), formaldehyde fixer fluid reservoir (13) It is not connected by connecting tube (3) with inlet tube (4), the inlet tube (4) extends glass through the inlet opening (8) on sealing-plug (7) In glass Dyeing pipe (1), one end of the outlet tube (5) extends the outlet tube protection through the fluid hole (9) on sealing-plug (7) In chamber (2), the other end of the outlet tube (5) is connected with waste liquid tank (6)；

   The primary antibody fluid reservoir (10), secondary antibody fluid reservoir (11), PBT buffer solutions fluid reservoir (12), formaldehyde fixer fluid reservoir (13) the minisize liquid control valve controlled by single chip control module is equipped with the connecting tube (3) between inlet tube (4) (14), the outlet tube (5) is equipped with the drawing liquid pump (15) controlled by single chip control module；

   The primary antibody fluid reservoir (10), secondary antibody fluid reservoir (12) are equipped with controls dress by the low temperature of single chip control module control Put, the glass decorating pipe (1) is equipped with infrared temperature probe (17).
2. A kind of 2. biological tissue's active immunity histochemical staining system according to claim 1, it is characterised in that：The glass Dyeing pipe (1) is fixed on wrap board shaking table (16), and wrap board shaking table is shaken by certain frequency；The inlet tube (4) and outlet tube (5) it is hose.
3. A kind of 3. biological tissue's active immunity histochemical staining system according to claim 1, it is characterised in that：The feed liquor The outlet termination of pipe (4) bends towards the Dyeing pipe (1) inner wall.
4. A kind of 4. biological tissue's active immunity histochemical staining system according to claim 1, it is characterised in that：It is described go out liquid Protection of pipe chamber (2) side wall is equipped with the logical liquid aperture that some prevention biological tissues pass through, in outlet tube protection chamber (2) Outlet tube be equipped with filter screen.