CN113940306B - Novel vessel for zebra fish behaviouristics experiments - Google Patents

Abstract

The invention relates to a novel zebra fish behavioral experiment vessel which comprises a cavity body, wherein the cavity body comprises an experiment target observation area and an experiment environment configuration area; the experimental target observation area is arranged in the center of the cavity body, and the experimental environment configuration area surrounds the experimental target observation area; the experimental environment configuration area comprises a baffle plate and a spacer; the baffle longitudinally separates the experiment environment configuration area, and the spacer is detachably connected with the baffle; the spacer carries information for stimulation, and has the advantages that the experimental environment is flexible and changeable, the experimental requirements for the specialization of zebra fish can be met, the supplementary test means is facilitated, and the test range is enlarged.

Description

Novel vessel for zebra fish behaviouristics experiments

Technical Field

The invention relates to the technical field of experimental equipment, in particular to a novel zebra fish behavioral experiment vessel.

Background

With the development of model animal zebra fish experiments and the attention of people to brain science, the attention degree of learning memory and complex behaviors of organisms is gradually increased in the world, the existing zebra fish behavioral related experiments are mainly based on a T maze and a cross maze, and the vessels can be customized according to different experimental purposes so as to meet the experimental requirements including color tendency, reward and punishment memory and the like, but are concentrated on adult zebra fish, the attention to juvenile fish is insufficient, and the early life is of great importance as an important window period for intelligence development and environmental exposure.

The currently used behavioural maze has a single exposure factor, needs to be repeatedly customized according to the experimental purpose, and simultaneously defines a certain 'non-exposure' area, and actually the animal in the area is also influenced by the exposure factor, and has brain activity and choice, however, how to define the range is difficult, and simultaneously, the complex environmental exposure is lacked, and the research on the complex exposure and the complex movement of the animal environment is limited.

Chinese patent document CN110558247A discloses a combined multi-arm labyrinth device, which comprises separation arms and combined steps, wherein the separation arms are of a one-way channel structure formed by two side plates and a sealing plate, one end of each of the two side plates is sealed by the sealing plate, the other end of each of the two side plates is open, the separation arms are provided with a plurality of separation arms, the open ends of the plurality of separation arms are sequentially connected in the circumferential direction, the middle parts of the separation arms are encircled to form a central dead zone, and the one-way channel of each separation arm is internally provided with one combined step; the method can be used for experimental study of animal motion behavior control and experimental study of animal learning and memory ability; the technical scheme provided by the patent document provides different movement direction selection obstacles through the assembly of a plurality of separating arms along different directions and the establishment of combined steps therein, and sets space obstacles on the road to carry out experimental research on land and aquatic animals, obviously aiming at behavioural experiments, wherein a baffle can be temporarily placed between a central dead zone and each separating arm to realize the temporary closing and opening of a channel, and the aim is to train the memory capacity of a rat; the zebra fish behavioural experimental device to be solved by the application can not be used universally and flexibly, and can not be solved, for example, the shape of the central dead zone is determined by the number of the separating arms, and in the experiment of visual-kinetic reaction, the experiment of the movement effect of the grating can not be realized.

Chinese patent document CN213848209U discloses a composite animal behavioural maze device, which comprises a circular base plate, wherein the top of the circular base plate is provided with an annular side wall, the annular side wall is arranged at a circle of the edge of the circular base plate, the circular base plate is provided with tracks capable of forming a T-maze, a Y-maze, an eight-arm maze and an elevated cross maze, the border of the tracks and the annular side wall is provided with a hole, and a side arm plate can be inserted into the hole. The device can realize that four animal behavioristics mazes are contained in one mazy main body, the detachable side arm plate realizes the conversion between different mazes, and the required animal behavioristics mazes are assembled by inserting the side arm plate into different holes according to the track. The device can meet the requirements of four experiments of a T maze, a Y maze, an eight-arm maze and an elevated cross maze, has the characteristic of multiple functions, greatly simplifies the complexity of replacing the device among different experiments, and saves the space and time. In the same way, the technical scheme integrates the four labyrinths into one device, does not form breakthrough to the experimental steps, and only can be assembled by using fewer experimental devices compared with the traditional experiment.

In conclusion, a novel zebra fish behavior experiment vessel which is flexible and changeable in experiment environment, can meet experiment requirements for zebra fish specialization, is beneficial to supplement of experiment means and expansion of experiment range is needed.

Disclosure of Invention

The invention aims to provide a novel experimental vessel for zebra fish behavioural experiments, which has flexible and changeable experimental environment, can meet the experimental requirements aiming at the specialization of zebra fish, is beneficial to supplementing the experimental means and expanding the experimental range.

In order to achieve the purpose, the invention adopts the technical scheme that:

a novel zebra fish vessel for behavioural experiments comprises a cavity body, wherein the cavity body comprises an experiment target observation area and an experiment environment configuration area; the experimental target observation area and the experimental environment configuration area are separated by a transparent partition plate, the experimental target observation area is arranged in the center of the cavity body, and the experimental environment configuration area surrounds the experimental target observation area; the experimental environment configuration area comprises a baffle plate and a spacer; the baffle is used for partitioning the experiment environment configuration area, and the spacer is detachably connected with the baffle and used for changing the area environment; the baffle is perpendicular to the side walls of the experiment target observation area and the experiment environment configuration area; the baffle plate is used for quartering the experimental environment configuration area; the baffle is provided with a plurality of first connecting parts, and the first connecting parts are detachably connected with the spacer; the cavity body is located the central zone bottom in experiment target observation district and still is equipped with the installation department, be equipped with on the installation department rather than dismantling the bumping post that links to each other.

As a preferred technical scheme, the first connecting portion is of a slot structure, and the spacer is detachably connected with the adjacent baffle.

As a preferable technical solution, the first connecting portion is a clamping groove penetrating through the baffle, and the spacer is movable along the clamping groove.

As a preferred technical scheme, the mounting part and the stop column are provided with a plurality of stop columns, and the stop columns and the mounting part and the stop columns have different sizes.

As a preferred technical scheme, the partition plate is detachably connected with the cavity body.

As a preferred technical solution, it is characterized in that the spacer carries information thereon, which may be a grating, color stripes or integrated LED display lights, and the spacer may also be a display screen.

The invention has the advantages that:

1. the novel zebra fish behavioral experiment vessel comprises a cavity body, wherein the cavity body comprises an experiment target observation area and an experiment environment configuration area; target fish species can be placed in the experiment target observation area, behavior of the target fish can be observed and recorded conveniently, stimulation environments can be flexibly configured in the experiment environment configuration area according to experiment needs, and single-variable and/or multivariable research can be flexibly achieved.

2. The experimental target observation area and the experimental environment configuration area are separated by a transparent partition plate, so that the receiving of the stimulation by the experimental object is not influenced.

3. The experimental environment configuration area comprises a baffle plate and a spacer; the baffle is used for carrying out the subregion to experimental environment configuration district, and what correspond, its subregion has fixed angle, therefore its subregion can extend to experiment target observation district does benefit to the judgement to target fish action, the spacer with the baffle can be dismantled and link to each other, can change by the regional environment that the baffle separates in a flexible way to provide different stimulations.

4. The baffle is perpendicular to the side walls of the experiment target observation area and the experiment environment configuration area, and partition, namely confirmation of an affected area, is facilitated.

5. The experimental environment configuration area is divided into four equal parts by the baffle, and the method belongs to a conventional behavior area division method, and is simple and clear and high in reliability.

6. The baffle is equipped with a plurality of first connecting portion on it, first connecting portion can be dismantled with the spacer and be connected, first connecting portion can be slot structure, has both made things convenient for the dismantlement of spacer, can provide amazing far and near test contrast through the spacer of loading and unloading different positions again.

7. The first connecting part is a clamping groove penetrating through the baffle plate, so that the spacer can move between different baffle plates along the clamping groove, and experimental conditions for moving objects are provided.

8. The cavity body is located the central zone bottom in experiment target observation district and still is equipped with the installation department, be equipped with the bumping post that links to each other rather than dismantling on it of installation department, the installation department with the bumping post is equipped with a plurality of, and has different size of a dimension, the bumping post can block experiment target observation district to the completion is to "exposing the district" and the verification test of "non-exposure district".

Drawings

FIG. 1 is a three-dimensional schematic view of a novel zebra fish behavioral experiment vessel.

FIG. 2 is a schematic diagram of the spacer and the first connecting part of the novel zebra fish behavioral experiment vessel.

Fig. 3 is a top view of another novel zebra fish behavioral experiment vessel of the invention.

FIG. 4 is a schematic perspective view of another novel zebra fish behavioral experiment vessel of the invention.

FIG. 5 is a schematic diagram of another novel zebra fish behavioral experiment vessel of the invention.

FIG. 6 is a schematic diagram of the combination of a novel zebra fish behavioral experimental vessel and a bumping post.

FIG. 7 is a schematic diagram of a cross-like maze form of the novel zebra fish vessel for behavioural experiments.

Detailed Description

The invention will be further illustrated with reference to specific embodiments. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes and modifications can be made by those skilled in the art after reading the disclosure of the present invention, and equivalents fall within the scope of the appended claims.

Reference numerals and components referred to in the drawings are as follows:

1. cavity body	11. Experimental target observation area	12. Experimental Environment configuration area
			13. Partition board	14. Mounting part	15. Bumping post
121. Baffle plate	122. Spacer	1211. First connecting part

Referring to the attached drawings 1 and 2, fig. 1 is a three-dimensional schematic view of a novel zebra fish behavioral experimental vessel; FIG. 2 is a schematic diagram of the spacer and the first connecting part of the novel zebra fish behavioral experiment vessel. A novel zebra fish vessel for behavioural experiments comprises a cavity body 1, wherein the cavity body 1 comprises an experiment target observation area 11 and an experiment environment configuration area 12; the experimental target observation area 11 is arranged in the center of the cavity body 1, and the experimental environment configuration area 12 surrounds the experimental target observation area 11; the experimental environment configuration area 12 comprises a baffle 121 and a spacer 122; the baffle 121 longitudinally separates the experimental environment configuration area 12, and the spacer 122 is detachably connected with the baffle 121;

it should be noted that: the cavity body 1 is a water storage tank, the interior of the cavity body is divided into two areas by outward diffusion from the center, an experimental target observation area 11 is positioned at the center, and an experimental environment configuration area 12 is positioned outside the experimental target observation area 11; the experimental target observation area 11 and the experimental environment configuration area 12 are isolated from each other, that is, the target fish thrown into the experimental target observation area 11 is limited to the activity in the area; the experimental environment configuration area 12 includes a baffle 121 and a spacer 122, the baffle 121 provides support for the spacer 122, the baffle 121 and the spacer 122 divide the experimental environment configuration area 12 into several areas, if the baffle 121 can divide the experimental environment configuration area 12 longitudinally in a cross shape, it is equivalent to divide it into four quadrants, the quadrants are divided to extend to the center of the experimental target observation area 11, experimental environments of different quadrants can be changed in an experiment, and whether the gathering condition of target fish in the experimental target observation area 11 tends to concentrate in a certain quadrant or not can be observed, so as to record the experimental result under the change of the relevant experimental environment, therefore, it is obvious that the spacer 122 is detachably connected to the baffle 121, and the spacer 122 is one of factors of the change of the experimental environment, such as color and brightness of the spacer 122, and the distance relationship of the setting position with specific features 122, and is a carrier of experimental elements.

The novel experimental vessel for zebra fish behaviours can change experimental environment at any time, flexibly carry out experiments, break the limitation of the existing experimental steps, and conveniently arrange the combined stimulation action of various conditions at the same time for carrying out experiments.

Example 1

Please refer to fig. 1 and fig. 2 again; a novel vessel for zebra fish behavioural experiments comprises a cavity body 1, wherein the cavity body 1 is a cylindrical cavity, a partition plate 13 with concentric circles is arranged in the cavity body, the partition plate 13 is made of a transparent material, the cavity body is divided into two areas, namely an experiment target observation area 11 as a central area, an experiment environment configuration area 12 as an outer side, a baffle plate 121 is arranged between the experiment target observation area 11 and the experiment environment configuration area 12, the baffle plate 121 is perpendicular to the side walls of the two areas, the experiment environment configuration area 12 is divided into four equal parts, namely a first quadrant area, a second quadrant area, a third quadrant area and a fourth quadrant area, a plurality of first connecting parts 1211 are arranged on the baffle plate 121, the first connecting parts 1211 and the partition plates 122 are detachably connected and are of a slot structure, correspondingly, the partition plates 122 are concentric arc plates in the embodiment and can be transversely inserted into slots of the adjacent baffle plates 121; the spacer 122 is an information carrier, for example, a light source device can be integrated therein to provide light stimulation, and can be a grating, or a specific color carried thereon; the size of the spacers 122 is adapted to the extent of their insertion position.

The use mode of the invention is as follows: in the social test experiment of the fish, one quadrant area (the other three quadrant areas are open spaces) is selected to place the zebra fish, the target fish is in the experiment target observation area 11, and the behavior of the target fish in a certain time is recorded. In the data analysis, the time of the fish in the vicinity of their fellow (social circle) was calculated as a response to the same kind of visual stimuli. Similarly, the effect of information on the target fish is tested by inserting spacers 122 carrying information in a quadrant region and recording the behavior of the target fish.

It should be noted that: the baffle 121 can also divide the experimental environment configuration area 12 into halves and eights, and preferably, the baffle 121 can also be detachably connected, that is, clamped with the cavity body 1 and the partition plate 13; the cavity body 1 may also be square, and the corresponding experimental target observation area 11 may be circular or square; the spacer 122 may also be a waterproof display screen to facilitate study of relevant display stimuli; preferably, the height of the partition plate 13, the baffle plate 121 and the spacer 122 is not lower than the depth of the chamber body, or not lower than the depth of the water level.

Example 2

Referring to fig. 3 and 4, fig. 3 is a top view of another novel zebra fish behavioral experiment vessel according to the present invention; fig. 4 is a schematic perspective view of another novel zebra fish behavioral experiment vessel of the invention. This embodiment is substantially the same as embodiment 1, except that the first connecting portion 1211 is a slot penetrating through the baffle 121, the spacer 122 includes not only a circular arc piece, but also a complete ring, and the ring is detachably connected to the slot, which has the advantage that the ring can rotate around the axis of the cavity body 1, for example, in an escape response experiment, a strip or a pattern of a certain color is coated on the spacer 122 and rotates, when the strip stimulus appears in the visual field of the zebra fish, the zebra fish can quickly determine whether to walk away from the area to avoid the stimulus, if the zebra fish is accustomed to a certain color, the spacer 122 with another color stimulus can be replaced, and the optical intensity of the stimulus can be adjusted, etc., so as to detect the excitation threshold of the zebra fish escape response, it should be noted that the first connecting portion 1211 described in this embodiment can also be applied to embodiment 1 and used in combination with the circular arc piece.

Example 3

Referring to fig. 5 and fig. 6, fig. 5 is a schematic view of another novel zebra fish behavioral experimental vessel according to the present invention; FIG. 6 is a schematic diagram of the matching of a vessel and a bumping post for a novel zebra fish behavioural experiment of the invention. The present embodiment is substantially the same as embodiment 1, and the difference is that the bottom of the central region of the cavity body 1 located in the experimental target observation area 11 is further provided with an installation portion 14, the novel vessel for zebra fish behavioural experiments further comprises a barrier column 15, and the height of the barrier column 15 is higher than or equal to the depth of the cavity body, or the height of the barrier column is not lower than the depth of the water level; the stop column 15 is detachably connected with the mounting part 14 to isolate the central area of the stop column, and the mounting part 14 is a mounting groove; preferably, the mounting portion 14 is provided with a plurality of retaining posts 15, i.e. retaining posts with different diameters, and correspondingly, the retaining posts 15 have different size ranges, such as cylinders with different diameters; the handling of the pillars 15 can be used for the study of exposed and non-exposed regions.

Example 4

Referring to fig. 7, fig. 7 is a schematic view of a cross-like maze shape of a novel vessel for zebra fish behavioral experiments. In order to further improve the flexibility of the device, the partition plate 13 is detachably connected with the cavity body 1, and a groove-shaped structure can be arranged at the bottom of the cavity body 1 for clamping and the like, so that the device has the advantages that a cross-maze-like circular maze can be formed, and the range of the experimental target observation area 11 can be enlarged, for example, the partition 122 is used as the boundary of the experimental target observation area 11, and correspondingly, in some induction experiments or social experiments, the partition 122 can be made of a transparent material; it should be noted that, the novel vessel for zebra fish behavioural experiments of the present invention can flexibly set the spacer 122, the partition 13, and the baffle 121 according to the experimental needs, for example, the sidewall of the cavity body 1 is provided with a plurality of groove-shaped structures adapted to the baffle 121 for the baffle 121 to be detachably connected to, the bottom of the cavity body 1 can be provided with groove-shaped structures adapted to the size and the installation direction of the baffle 121, the clamping between the assemblies belongs to a conventional clamping structure, including but not limited to the clamping groove structure shown in the drawings, and it should be understood that, because of the experiment of the fish body in water, the staggered groove-shaped structures in the cavity body 1 do not affect the experiment, and are beneficial to the installation of various structures.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and additions can be made without departing from the principle of the present invention, and these should also be considered as the protection scope of the present invention.

Claims (7)

1. A novel zebra fish vessel for behavioural experiments is characterized by comprising a cavity body, wherein the cavity body comprises an experiment target observation area and an experiment environment configuration area; the experimental target observation area and the experimental environment configuration area are separated by a transparent partition plate, the experimental target observation area is arranged in the center of the cavity body, and the experimental environment configuration area surrounds the experimental target observation area; the experimental environment configuration area comprises a baffle plate and a spacer; the baffle is used for partitioning the experiment environment configuration area, and the spacer is detachably connected with the baffle and used for changing the area environment; the baffle is perpendicular to the side walls of the experimental target observation area and the experimental environment configuration area, and the baffle is detachably connected with the cavity body; the baffle plate is used for quartering the experimental environment configuration area; the baffle is provided with a plurality of first connecting parts, and the first connecting parts are detachably connected with the spacer; the cavity body is located the central zone bottom in the experiment target observation district and still is equipped with the installation department, be equipped with on the installation department rather than dismantling the bumping post that links to each other.

2. The novel experimental ware of zebra fish behaviours of claim 1, wherein the first connecting portion is a slot structure, and the spacer is detachably connected with the adjacent baffle.

3. The novel zebrafish behavioral laboratory vessel according to claim 1, wherein the first connecting portion is a clamping groove penetrating through the baffle, and the spacer is movable along the clamping groove.

4. The novel zebrafish behavior experimental vessel as claimed in claim 1, wherein the installation part and the blocking columns are provided in a plurality of numbers and have different sizes.

5. The novel zebrafish behavioral experimental vessel according to claim 1, characterized in that the partition plate is detachably connected with the cavity body.

6. The novel zebrafish behavioral laboratory vessel according to any one of claims 1 to 5, wherein the spacer carries information thereon, which is a grating, color stripes or an integrated LED display lamp.

7. The novel zebrafish behavioral laboratory vessel according to claim 1, characterized in that the spacer is a display screen.

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