KR20160061552A - A gene amplifying Tube having a plurality of separated injection chamber - Google Patents

Abstract

The present invention relates to a gene amplifying tube which can be used in a multi-step reactions such as chemical reactions or biochemical reactions, especially amplification reactions including polymerase chain reactions (PCRs). More specifically, the present invention relates to a gene amplifying tube having additionally provided injection chambers for injecting reagents.

Description

[0001] The present invention relates to a gene amplifying tube having a plurality of separate injection chambers,

The present invention relates to a gene amplification tube that can be used for a multistage reaction, for example, a chemical reaction or a biochemical reaction, particularly an amplification reaction, for example, a polymerase chain reaction. More specifically, And more particularly, to a gene amplification tube equipped with the same.

Polymerase chain reaction (PCR) is a method in which only a desired portion of a DNA chain is amplified. Since the amount of DNA in a cell is very small, it is very small to be used in experiments. Therefore, only the corresponding DNA of a gene of interest is amplified and used in the experiment. Genes are amplified and widely amplified in the field of molecular biology such as sequencing, gene analysis, diagnosis of genetic diseases, and fingerprint confirmation.

In the polymerase chain reaction (PCR), the target DNA and the gene amplification reagent are put together in a thin tube-shaped plastic container with a lid, and the gene amplification tube is inserted into the heater block of the gene amplifier. The genetic amplification tube is amplified by sequentially converting the heater block surrounding the amplification tube to three temperatures: denature (95 degrees), annealing (50 degrees), and extension (72 degrees). Therefore, in order to amplify the gene, a step of putting the gene and the reagent into the amplification tube is necessary.

FIG. 7 shows a gene amplification tube 100 according to the prior art. The genetic amplification tube 100 includes a tube body 103 having a predetermined internal accommodation space 102 and a lid connected to the top of the tube body 103 to cover the opening 104 of the tube body 103 105).

Although only one gene amplification tube is shown in the figure, generally, seven to eight genetic amplification tube bodies are generally integrally connected by a narrow connector so as to be aligned in a transverse direction. At this time, the shape, arrangement and number of the gene amplification tubes can be changed.

As described above, in the conventional gene amplification tube 100, only one receiving space 102 is formed inside the single tube body 103, so that all the genes and reagents are inserted into the opening 104 of the gene amplification tube 103 .

FIG. 8 shows the injection of genes and reagents using a pipette. As shown in the figure, a tip 121 made of plastic is inserted into the tip of the pipette 120, and the gene and the reagent are introduced through the opening 104 of the gene amplification tube 100.

In the case where another reagent is injected into the gene amplification tube 100, there is a high possibility that another reagent is adhered to the tip 121 of the pipette 120 injected through one opening 104.

Therefore, the gene amplification tube 100 according to the related art prevents the tip 121 of the pipette 120 from being contaminated by changing the type of the reagent. For example, if the number of genes and reagents is 5, and the number of prepared amplification tubes 100 is 7, all 42 tips must be used to inject both genes and reagents.

Accordingly, a large number of tips must be used in the prior art, which increases the cost. In addition, it takes a long time to replace the tip, and the reagent input operation is very cumbersome.

In addition, since all kinds of reagents are injected into one tube, it is impossible to confirm what type of reagent has been injected.

Korean Patent Laid-Open No. 10-2014-67552 (Published May 2014,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a gene amplification tube having a plurality of separate injection chambers which can prevent contamination during the injection of genes and reagents, .

Another object of the present invention is to provide a gene amplification tube having a plurality of separate injection chambers which do not have to discard a large amount of tips in the course of injecting genes and reagents.

It is another object of the present invention to provide a gene amplification tube having a plurality of injection chambers which can easily and rapidly inject a gene and a reagent and can prevent a mistake that does not introduce a reagent.

As a means for achieving the object of the present invention, a gene amplification tube having a plurality of separate injection chambers according to the present invention,

A genetic amplification tube comprising a tube body having a constant internal space and a lid for opening and closing an opening of the tube body,

Wherein a plurality of injection chambers are integrally formed on an outer surface of the tube body around an opening of the tube body, the plurality of injection chambers are separated into partitions, an injection port for injecting a reagent is formed at an upper end, And a discharge port connected to the space for discharging the reagent.

In the present invention, the injection chamber has at least one inclined side wall so that the injected reagent can flow downward.

The outlet is formed in such a size that the injected reagent can flow by the weight of the reagent.

In addition, the outlet is formed in a fine size that can not flow by the self weight of the reagent.

The inlet of the injection chamber is arcuate.

The injection chamber is semi-conical.

The injection chamber has 5 to 6 injection chambers.

According to the gene amplification tube having the plurality of separate injection chambers of the present invention, since the injection chamber for injecting a plurality of reagents is separately provided, there is an effect that the tip is prevented from being contaminated during the injection of the reagent.

Since the reagent can be injected into multiple gene amplification tubes using one tip, the present invention can reduce the amount of tip used.

Since the present invention does not frequently replace the tip, the sample injection process can be performed quickly.

Further, since only one reagent is injected into each of the injection chambers, it is possible to confirm whether or not the reagent is injected, thereby preventing a mistake of not injecting the reagent.

FIG. 1 is a perspective view showing an example of a gene amplification tube having a plurality of separate injection chambers according to the present invention. FIG.
FIG. 2 is a cross-sectional view showing an example of a gene amplification tube having a plurality of separate injection chambers according to the present invention shown in FIG. 1;
FIG. 3 is a perspective view showing another embodiment of a gene amplification tube having a plurality of separate injection chambers according to the present invention. FIG.
FIG. 4 is a cross-sectional view showing another embodiment of a gene amplification tube having a plurality of separate injection chambers according to the present invention shown in FIG. 3;
FIG. 5 is an explanatory view showing a method of injecting a reagent into a gene amplification tube provided with a plurality of separate injection chambers according to the present invention;
FIG. 6 is an explanatory view showing the release of a reagent injected into a gene amplification tube provided with a plurality of separate injection chambers according to the present invention;
FIG. 7 is a perspective view showing an example of a conventional gene amplification tube,
8 is an explanatory view showing a method of injecting a reagent into a gene amplification tube according to the prior art.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a gene amplification tube having a plurality of separate injection chambers according to the present invention, and FIG. 2 is a sectional view showing a gene amplification tube having a plurality of separate injection chambers according to the present invention.

As shown in the figure, a gene amplification tube 1 (hereinafter, referred to as a 'gene amplification tube') provided with a plurality of separate injection chambers of the present invention comprises a tube body 3 having a constant internal space 2, And a plurality of separate injection chambers 10 are integrally provided on the outer surface of the opening 4 formed in the housing 4.

That is, the gene amplification tube 1 of the present invention includes an injection chamber 10 for injecting a gene and a reagent (hereinafter referred to as a "reagent"), and a reaction chamber for amplifying mixed reagents .

In other words, the middle tube body 3 serves as a reaction chamber for mixing and reacting various injected reagents, and small-sized tubes formed on the outer surface around the opening 4 of the tube body 3 are filled with reagents As well as the injection chamber 10 for injection.

As described above, the present invention separates the reaction chamber and the injection chamber, thereby preventing the tip, which is inserted into the tip of the pipette, from being contaminated during the injection of the reagent.

More specifically, the injection chamber 10 is separated into the partition walls 12 so that the injected reagents can not be mixed with each other.

An injection port 14 is formed at an upper end of the injection chamber 10 so as to inject a reagent through a pipette and an injected reagent is injected into a discharge port 16 are formed.

The partition wall 12 of the injection chamber 10 is formed to be inclined so that the injected reagent can flow downward.

The lid 5 is integrally connected to one side of the injection chamber 10 and includes a sealing portion for blocking the opening 4 of the tube body 3 and the injection port 14 of the plurality of injection chambers 10 . A cylindrical sealing portion 7 for blocking the opening 4 of the tube body 3 is formed in the center of the lid 5 and an arc-shaped portion 7 for blocking the injection port 14 of the injection chamber 10 is formed around the sealing portion 7. [ The sealing portion 8 of the first embodiment is formed.

The gene amplification tube 1 may be formed of at least one of polypropylene (PP), chlorinated polyethylene, ethylene propylene dimethyl, silicone rubber, acrylic resin, amide resin, epoxy resin, phenol resin, polyester resin, , A polyvinyl butyral resin, a polyurethane resin, and a nitrile-butadiene rubber. However, the present invention is not limited thereto. Preferably, the gene amplification tube 1 is made of a transparent or semitransparent material.

The lid 5 may be made of the same material as the gene amplification tube 1 or may include at least one of a material having a low hardness such that the needle can pass therethrough, for example, silicone, urethane, PVC or PDMS But is not limited thereto.

Preferably, the injection port 14 of the injection chamber 10 is formed in an arcuate shape, and the partition 12 may have a semicircular shape, but is not limited thereto.

The number of the injection chambers 10 may be five or six, depending on the type of the reagent used for amplification. However, the number of the injection chambers 10 is not limited thereto.

The outlet 16 formed at the lower end of the injection chamber 10 may be formed to have a sufficient size so that the injected reagent flows into the internal space 2 of the chamber body 3 by the weight of the reagent, So that the injected reagent can flow only when the reagent does not flow due to the self weight of the reagent but exerts a separate external force. For example, the reagent injected into the injection chamber 1 can be supplied to the inner space 2 of the chamber body 3 only by using a centrifugal separator.

Further, a plurality of ring-shaped projection structures can be formed on the outer surface of the sealing portions 7 and 8 of the lid 5. The protruding structure can be brought into tight contact with the wall surface of the injection port to provide hermeticity.

The gene amplification tube 10 and the lid 5 may be separately manufactured by an injection molding method or may be manufactured at a time.

FIG. 3 is a perspective view showing another embodiment of a gene amplification tube having a plurality of separate injection chambers according to the present invention. FIG. 4 is a cross-sectional view of a gene amplification tube having a plurality of separate injection chambers, Fig.

As shown in the figure, the gene amplification tube of the present invention is characterized in that a plurality of separate injection chambers 10 are integrally formed on the outer surface around the opening 4 formed in the upper end of the tube body 3 having a constant internal space 2 Respectively.

That is, in the gene amplification tube 1 of the present invention, the middle tube body 3 serves as a reaction chamber for mixing and reacting various injected reagents, Small-sized tubes formed on the outer surface serve as an injection chamber 10 for injecting the reagent.

Particularly, the gene amplification tube 1 of the present invention is configured such that the injection port 14 of the injection chamber 10 is positioned above the opening 4 of the tube body 3, . That is, the injection ports 14 of the plurality of injection chambers 10 are formed into a single circular shape, and the sealing portion 8 of the corresponding lid 5 is circular, so that the structure is simple.

A slit-shaped discharge port 16 is formed at the lower end of the injection chamber 10. The slit-shaped discharge port 16 is elongated in the vertical direction, so that the discharge port 16 can be easily formed during injection molding.

Hereinafter, a method of amplifying a gene using the gene amplification tube according to the present invention will be described.

First, a reagent containing a gene to be amplified is prepared. At this time, the gene and the reagent are stored in separate reagent containers.

In addition, a plurality of gene amplification tubes 1 are prepared. For example, seven gene amplification tubes 1 having a plurality of separate injection chambers according to the present invention are prepared.

The tip is inserted into the tip of the pipette, and then a certain amount of the gene and the reagent stored in the reagent container are extracted. At this time, the gene to be extracted and the reagent extract the amount to be injected into the seven gene amplification tubes 10.

Next, the gene and the reagent are injected into the gene amplification tube 1 using a pipette. At this time, the gene is injected through the opening 4 of the tube body 3, and the other reagents are injected into the injection chamber 10 formed integrally around the tube body 3. Then, the reagent once extracted is injected into the specific injection chamber 10 of the seven gene amplification tubes 1, respectively.

Subsequently, the tip inserted into the tip of the pipette is replaced, and the reagents stored in the other reagent containers are extracted and injected into the different injection chambers 10 of the seven gene amplification tubes 1, respectively. This procedure is repeated to inject all the reagents into the injection chamber 10 of the gene amplification tube 1.

When the gene and all the reagents are charged, the reagent in the injection chamber 10 is pressurized to flow into the inner space 3 of the tube main body 2 by using a centrifuge or the like.

In this way, when the introduced reagents are mixed, the gene can be amplified by repeating the heating and cooling according to the polymerase chain reaction (PCR) to polymerize the gene to a desired level.

The polymerase chain reaction (PCR) is a step of heating to cause a polymerization reaction to synthesize a complementary base of DNA, a step of heating for thermal denaturation to break hydrogen bonding of a complementary base of DNA, The gene may be amplified by repeating the step of cooling the gene.

As described above, the gene amplification tube 1 according to the present invention has a separate injection chamber 10 for injecting reagents, so that the tip of the pipette can be prevented from being contaminated and the cost can be reduced by minimizing the use of the tip can do.

In addition, since the reagent can be injected into each of the input chambers 10, the gene amplification tube 1 of the present invention can confirm whether or not the sample is injected, thereby preventing the mistake of amplifying the sample without injecting the sample.

In addition, the present invention greatly reduces the number of times of replacing the tip, simplifying the reagent injection process and reducing the time.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration in the practice of the invention. It is clear that the present invention is not limited to the above-described embodiments. Accordingly, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas which fall within the scope of equivalence by alteration, substitution, substitution, Range. In addition, it should be clarified that some configurations of the drawings are provided to explain the configuration more clearly and are provided in an exaggerated or reduced size than the actual configuration.

1: gene amplification tube 2: inner space
3: tube body 4: opening
5: lid 7, 8:
10: Injection chamber 14: Injection port
16: Outlet

Claims (8)

A genetic amplification tube comprising a tube body having a constant internal space and a lid for opening and closing an opening of the tube body,
A plurality of injection chambers are integrally formed on an outer surface of an opening of the tube body,
Wherein the plurality of injection chambers are surrounded by the partition wall and have an injection port for injecting a reagent at an upper end thereof and a discharge port connected to an inner space of the tube body at a lower end to discharge the injected reagent. A plurality of separate injection chambers.
The method according to claim 1,
Wherein the injection chamber comprises at least one sloped side wall for allowing the injected reagent to flow downward.
3. The method of claim 2,
Wherein the outlet is formed to have a size such that the injected reagent can be flowed by the self weight of the reagent.
3. The method of claim 2,
Wherein the outlet is formed in a fine size that can not be flowed by the weight of the reagent injected reagent.
3. The method of claim 2,
Characterized in that the inlet of the injection chamber is of an arcuate shape.
6. The method of claim 5,
Wherein the injection chamber is formed in a semi-circular shape.
The method according to claim 6,
Wherein the injection chamber comprises 5 to 6 injection chambers.
The method according to claim 2 or 3,
Wherein the outlet is formed in a slit shape in a vertical direction.

Images