JP6823235B2 - Thin-layer chromatograph sorting method and thin-layer chromatograph sorting device - Google Patents

Description

The present invention relates to a thin layer chromatograph sorting method and a thin layer chromatograph sorting device.

The thin layer chromatograph is an analysis method in which a sample is applied to a carrier formed in a thin layer, and when an organic solvent or water moves due to a capillary phenomenon, the moving speed differs for each compound. Such an analysis method has advantages such as simplicity and a small amount of sample used for analysis, and is an analysis method generally used in the field of synthetic chemistry. However, although it is mainly used in analysis, it is rarely used for preparative use.

It is not easy to separate the components separated by such a thin layer chromatograph. This is because the separated components are present on a carrier such as silica gel, and it is difficult to obtain only the target component from the carrier. Conventionally, only the portion of the carrier on which the target component is adsorbed is scraped off, and this is mixed with a solvent and filtered to separate the target component.

However, such a method is troublesome and only a very small amount of the target substance is separated, so that it is often not possible to obtain a result commensurate with the effort. Therefore, it has been a general method to carry out a chromatograph for preparative use while referring to the result of the thin layer chromatograph to perform preparative / analysis.

On the other hand, if the components separated by thin layer chromatography can be easily sorted and analyzed, the labor in synthesis and sorting will be reduced, which will contribute to the rationalization of research and development. Further, if the separated spots can be directly used for other analytical means (for example, mass spectrometry), there is an advantage that the substance corresponding to the spots can be known by a thin layer chromatograph.

Patent Document 1 discloses an apparatus for acquiring spots on a thin layer chromatograph. However, when preparative by such a method, the solvent diffuses on the carrier on the thin layer chromatograph, and it is difficult to selectively obtain only the components of the target spot in good yield. .. Therefore, the above-mentioned purpose cannot be sufficiently achieved.

Patent Document 2 discloses that a thin-layer chromatograph plate is blown with hot air to desorb a measurement sample, which is then ionized for mass spectrometry. However, this is a method that can be applied only to highly volatile compounds, and some compounds may be decomposed by heating. Further, there is a problem that it cannot be used for an analysis method other than mass spectrometry because it cannot be sorted.

In Patent Document 3, transfer is performed from a thin layer chromatograph substrate to a PVDF membrane, a two-dimensional range is measured by an imaging mass spectrometer using the transferred PVDF membrane, and mass spectra for each of a large number of measurement points are acquired. The method of doing so is disclosed. However, such a method cannot be said to be a simple analytical method, and cannot be used in a method such as confirmation of reaction results in a normal synthetic experiment.

European Patent Application Publication No. 0075867 Japanese Unexamined Patent Publication No. 2012-177605 Japanese Unexamined Patent Publication No. 2010-271157

In view of the above, the present invention provides a method for separating spot components on a thin layer chromatograph so that a target spot can be efficiently obtained without the possibility of decomposition of the components in the spot by a simple method. It is intended to be provided.

The present invention
This is a sorting method for sorting spots from a thin-layer chromatograph plate.
Step 1 of removing the carrier at the periphery of the spot to be sorted to form a groove.
Step 2 of inserting a nozzle having a packing portion at the tip into the groove formed in Step 1
Step 3 in which the solvent flows out from the nozzle and step 4 in which the solvent in which the spot component is dissolved is sucked.
It is a thin layer chromatograph sorting method characterized by having.
It is preferable that the groove formation in the above step 1 is performed by pressing the groove forming means against the carrier and rotating the groove.

The present invention is a sorting device for carrying out the above-mentioned thin layer chromatograph sorting method.
Groove forming means (F-1) for removing the carrier at the periphery of the spot to form a groove, and
A nozzle (F-2) having a packing portion at the tip that can be inserted into a groove formed by the groove forming means.
It is also a sorting device for a thin layer chromatograph, which is characterized by being equipped with.

The present invention is a sorting device for carrying out the above-mentioned thin layer chromatograph sorting method.
Thin-layer chromatograph plate mounting means (A),
Spot detection light irradiation means (B),
Thin-layer chromatograph plate imaging means (C),
An image display means (D) for displaying an image taken by the thin layer chromatograph plate photographing means (C),
The spot designation means (E) in which the worker specifies the spot position in the image displayed on the image display means (D), and the spot designation means (E).
Groove forming means (F-1) for collecting a spot at a position designated by an operator by the spot designating means (E), for removing a carrier at a peripheral portion of the spot to form a groove. ,as well as,
A nozzle (F-2) having a packing portion at the tip that can be inserted into a groove formed by the groove forming means.
Collection means (F)
It is a preparative apparatus for a thin layer chromatograph, which comprises.

According to the thin layer chromatograph sorting method of the present invention, spots separated by the thin layer chromatograph can be easily and quickly obtained by a simple operation. Then, the spots can be obtained in good yield without causing remixing of the separated spots and without the extraction solvent permeating and diffusing around. Furthermore, since it does not go through a process such as heating, it does not cause alteration of the spot component. Furthermore, since the spot component can be obtained in the form of a solution, it can be subjected to arbitrary chemical analysis.
Further, by using the thin-layer chromatograph sorting device of the present invention, such a thin-layer chromatograph sorting method can be easily and efficiently performed.

It is a schematic diagram which shows the procedure of the thin layer chromatograph sorting method of this invention. It is a schematic diagram which shows an example of the preparative apparatus for a thin layer chromatograph of this invention. It is a schematic diagram which shows an example of the preparative apparatus for thin layer chromatograph of this invention. It is a schematic diagram which shows an example of the collection means (F) of this invention. It is a schematic diagram which shows an example of the image display means (D) of the thin layer chromatograph sorting apparatus of this invention. It is a schematic diagram which shows an example of the preparative apparatus for a thin layer chromatograph of this invention.

The present invention will be described in detail below.
The first invention is a preparative method for thin layer chromatography. That is, it is a preparative method for obtaining the components constituting the spots separated by the thin layer chromatograph.

The sorting method of the present invention is shown as a schematic diagram in FIG. Hereinafter, description will be made based on FIG.
FIG. 1A shows a thin-layer chromatograph plate after the sample has been developed. The upper figure is a schematic view of the thin layer chromatograph plate viewed from above, and the lower figure is a schematic view showing a cross-sectional view of the spot position. The thin-layer chromatograph plate has a structure in which the carrier 1 is formed on the support plate 2, and the spot 3 after the thin-layer chromatograph is performed contains the separated compound in the spot. The sample obtained in the present invention is present in carrier 1.

In step 1 of the present invention, as shown in FIG. 1 (B), the carrier at the peripheral edge of the spot to be sampled is removed to form the groove 4. Since the carrier is a layer formed of fine powder such as silica, it can be easily removed by scraping the surface with a blade, a needle, or the like. Such removal of the carrier is preferably performed until the support plate 2 is exposed on the surface. This is because if the carrier 1 remains in the deleted portion even after the removal, the solvent may leak to the outside through the remaining portion, and the object of the present invention may not be sufficiently achieved.

As shown in FIG. 1C, the step 2 of the present invention is a step of inserting the nozzle 5 having the packing portion 6 at the tip into the groove 4 formed by the step 2.
The nozzle used here has a tube shape through which a liquid can pass through a hollow portion, and has a packing portion 6 at the tip thereof. The packing portion is made of a material having high adhesion such as an elastic body such as rubber. By inserting the packing portion into the groove formed in the above step 1, the spot portion 3 of the carrier containing the sample and the other parts of the carrier are blocked from each other, and the liquid can move back and forth between them. become unable.

When the solvent is discharged from the nozzle by step 3 in such a state, the discharged solvent is provided only to the spot portion 3 and does not diffuse to other parts of the carrier. Therefore, components other than the target spot 3 are not mixed, and the liquid can be efficiently sucked in the subsequent step 4, and the target sample can be collected in good yield.

Each process will be described in more detail below.
(Step 1)
The step 1 is a step of removing the carrier at the peripheral portion of the spot to be sorted to form the groove 4. The method of performing such a process is not particularly limited, and examples thereof include a method of pressing a spot-shaped blade and a method of scraping the carrier by tracing the surface with a sharp cutting material such as a needle or a blade. it can.

The groove formation is preferably performed by pressing a groove forming means such as a blade or a needle against the carrier and rotating the groove. By performing this method, a uniform groove can be stably formed, so that a sample can be obtained without causing trouble in the following steps.

The shape and size of the groove to be formed are not particularly limited, and any size and shape can be used depending on the purpose. However, since the packing portion of the formed groove is inserted in the subsequent steps, it is necessary to make the shape and shape of the packing portion of the nozzle substantially the same as the shape of the packing portion of the nozzle.

Further, the scraped powder of the carrier 1 is generated, which may be removed by a method such as suction before proceeding to the next step.

(Step 2)
The step 2 is a step of inserting a nozzle having a packing portion at the tip into the groove formed by the above-mentioned step 1. In this step 2, the packing portion is inserted into the groove formed in step 1 and brought into close contact with each other.

The nozzle 5 used here has a function as a route for supplying a solvent when eluting the compound constituting the spot and sucking the solution in which the sample is dissolved. As such a nozzle, a tube made of any known material can be used, and it is necessary to have a packing portion at the tip thereof.

Since the packing portion has elasticity, it may be made of a material that can adhere to the groove and the base material layer formed in the above step 1 without gaps, thereby preventing the liquid from flowing out from the inside of the nozzle to the outside. preferable. Specifically, those made of various rubber materials can be used. Not only when only the tip is an elastic body, but also a nozzle made of an elastic material such that the entire nozzle acts as a packing portion may be used.

Further, since the nozzle 5 also functions as a path for supplying and sucking the solvent, it is desirable that the nozzle 5 is connected to a pump, a suction means, or the like for these purposes. The means for providing and sucking such a solvent is not particularly limited, and any known solvent can be used.

(Step 3)
The step 3 is a step of discharging the solvent from the nozzle inserted into the chromatographic plate-shaped groove in the step 2. That is, it is a step of supplying the solvent to the site where the spot of the carrier is formed. As a result, the solvent is selectively supplied only to the spot position, and only the substance to be obtained can be dissolved in the solvent without causing contamination of impurities.

The solvent used is not particularly limited as long as it can dissolve the sample to be obtained, and can be selected according to the purpose. Moreover, the amount of the solvent to be donated is sufficient to be about 1 to 30 μl.

(Step 4)
Finally, the step 4 is a step of obtaining a target sample by sucking the solution in which the sample is dissolved by the above-mentioned step 3. Thereby, the sample separated by the thin layer chromatograph can be collected and used. The method of suction is not particularly limited, and examples thereof include a method of sucking by reducing the pressure with a pump.

The sample thus separated may be directly fed to the analysis unit. That is, if the structure of the compound is clarified by analyzing the sample thus obtained, the existing compound is clarified by a thin layer chromatograph using a small amount of sample, and further, it is referred to as a spot position. Can be associated. Then, since the distilling position of the sample required for the subsequent separation work becomes clear, the subsequent work can be performed efficiently.

The analysis unit is not particularly limited, and for example, a measurement method capable of measuring in a solution state such as mass spectrometry, NMR, differential refraction (RI), evaporation type light scattering detector (ELSD), ultraviolet absorption analysis, and visible light absorption analysis. If so, it is not limited. Further, instead of directly introducing it into the analysis unit, it may be isolated once and then supplied to the analysis means by performing necessary operations.

The second invention is a preparative apparatus for use in the above-mentioned preparative method for thin layer chromatography of the present invention.
That is, it is difficult to manually perform all the preparative methods for thin layer chromatography as described above. Therefore, the present inventor provides a sorting device for assisting these operations. Hereinafter, this will be described in detail with reference to FIG.

The thin-layer chromatograph sorting device of the present invention has a groove forming means (F-1) for performing step 1 in the above-mentioned thin-layer chromatograph sorting method, and a tip portion for performing steps 2 to 4. This device is equipped with a nozzle (F-2) having a packing unit 6.

A schematic diagram of an example of such a device is shown in FIG. The thin-layer chromatograph sorter of the present invention is not limited to the one having the configuration shown in FIG. FIG. 2 includes a groove forming means (F-1) and a nozzle (F-2) that move up and down, respectively, and these groove forming means (F-1) and the nozzle (F-2) are placed on a sample mounting table. It is lowered onto the thin-layer chromatograph plate 11 installed in the above to perform a predetermined operation.

In the embodiment shown in FIG. 2, the groove forming means (F-1) and the nozzle (F-2) are provided as separate units, and the purpose is achieved by moving them up and down when performing each step. However, after both of these are provided in a single unit and the groove is formed by the groove forming means (F-1), the groove forming means is stored in the unit, and then the nozzle (F-2). May be exposed so that the packing portion 6 is brought into close contact with the groove 4. Further, although FIG. 2 is described as moving the groove forming means (F-1) and the nozzle (F-2) up and down, the same purpose may be achieved by moving the thin layer chromatograph plate 11 up and down.

As the groove forming means (F-1), those capable of pressing the blades and needles against the carrier and scraping off the carrier can be used. The shape may be the same as the shape of the groove to be formed, or the groove is formed by pressing a groove forming means, which is a small blade or a needle, against the carrier and rotating the groove. There may be. Grooving by the method of pressing the groove forming means against the carrier and rotating the groove can form a highly uniform groove so that the packing portion 6 of the nozzle (F-2) can be easily inserted with few failures. Preferred in terms of points.

Further, the nozzle (F-2) has a solvent supply means 8 and a suction means 9 such as a pump in addition to the packing unit 6. The solvent supply means 8 is not particularly limited as long as it can measure a predetermined amount of solvent from the solvent tank and supply it to the nozzle (F-2), and any known solvent can be used. .. Further, as the solvent suction means 9, any known means capable of efficiently sucking a small amount of sample can be used.

Further, in the thin layer chromatograph sorting device of the present invention, a plurality of groove forming means 5 and nozzles 7 are prepared, and these are exchanged according to the size of a target spot to perform the work. There may be. Furthermore, when preparating two or more spots on the thin layer chromatograph, if the same nozzle (F-2) is used repeatedly, the first preparated sample remains and the second It may be mixed in the preparative sample. In this case, by exchanging the nozzle (F-2) for each sample, the above-mentioned sorting can be performed without any problem.

Further, the nozzle (F-2) may be provided with cleaning means. That is, when the nozzle (F-2) is used once and then the next preparative is performed as it is, if the nozzle (F-2) is washed after the first preparative, the second and subsequent preparative steps can be continued. It is preferable because it can be sorted.

The sorting device of the present invention may be a device provided with an analysis unit connected to a nozzle (F-2). This allows the sorted samples to be automatically analyzed to identify the compounds that make up the spot. If these can be performed automatically, it becomes an apparatus capable of automatically obtaining the analysis result for the compound only by selecting the spot of the thin layer chromatograph. Furthermore, the analysis can be performed without causing sample loss due to preparative use.

In addition to the above-mentioned requirements of the second invention, the third sorting device of the present invention displays an image of the spot position of the thin layer chromatograph plate, and the operator displays the spot based on such a displayed image. Is a device capable of acquiring the spot component as described above for the spot designated by the operator and designated by the operator.
With such a sorting device, if the sample to be sorted is specified on the image, almost all subsequent operations can be performed automatically, so that the above-mentioned object of the present invention can be achieved extremely easily. be able to.

More specifically, such a preferred embodiment
Thin-layer chromatograph plate mounting means (A),
Spot detection light irradiation means (B),
Thin-layer chromatograph plate imaging means (C),
An image display means (D) for displaying an image taken by the thin layer chromatograph plate photographing means (C), and
Spot designation means (E), in which the operator specifies a spot position in the image displayed on the image display means (D),
Collection means (F) for collecting spots at positions designated by the operator by the spot designation means (E).
Is provided. Then, as the collecting means (F), the second invention described above is adopted.
Hereinafter, such (A) to (F) will be described in detail with reference to FIGS. 3 to 6, respectively.

The thin-layer chromatograph plate mounting means (A) in the above preferred embodiment is a table for mounting the thin-layer chromatograph plate in the apparatus. In the present invention, since the components constituting the spot are obtained from the thin layer plate after the thin layer chromatograph is performed, a thin layer chromatograph plate is specified in the apparatus in order to perform such processing. It is necessary to place it in the position of. The thin-layer chromatograph plate mounting means (A) is a mounting means for this purpose. In the present invention, the thin-layer chromatograph plate placed at a specific position is subjected to the work for sorting by each of the following elements.

In the thin-layer chromatograph sorting device of the present invention, the thin-layer chromatograph plate placed in this manner is irradiated with the detection light by the spot detection light irradiation means (B), and the thin-layer chromatograph plate photographing means. The thin-layer chromatograph plate according to (C) is photographed.

The spot detection light irradiation means (B) is a means for irradiating a thin layer chromatograph plate with detection light to visualize spots. Since the thin-layer chromatograph plate-shaped spots are often colorless, they cannot be visually recognized as they are. Further, even in the colored spot, it is necessary to irradiate the detection light in order to clearly display it on the image display means (D) described in detail below. Therefore, it is for irradiating detection light such as ultraviolet rays and visible light to visualize the spot. As a means for irradiating two or more types of detection light, these may be switched and used as necessary.

The thin-layer chromatograph plate imaging means (C) is an imaging means for imaging a thin-layer chromatograph plate whose spots are visualized by the spot detection light irradiation means (B). As described above, in the present invention, it is preferable that the operator is not directly exposed to the spot detection light. In the present invention, the thin-layer chromatograph plate is photographed by the thin-layer chromatograph plate photographing means (C), and the thin-layer chromatograph plate is displayed on the image display means (D) shown below for observation. This allows the operator to observe the thin-layer chromatograph plate without being exposed to the irradiated detection light.

The thin-layer chromatograph plate photographing means (C) can be a video camera for photographing a moving image, a camera for photographing a still image, or the like, but a video camera is more preferable. The video camera and cameras used here are not particularly limited, and ordinary ones can be used.

The image display means (D) is a means for displaying an image taken by the thin layer chromatograph plate photographing means (C). A moving image or a still image taken by the thin-layer chromatographic plate photographing means (C) is displayed on the image displaying means (D), and a spot to be acquired is specified on the displayed screen. As a result, the spot can be specified by a simple method, and the burden on the operator can be reduced.
The image display means (D) can be any known image display means such as a liquid crystal display.

The spot designating means (E) is a means for designating a spot to be collected from the spots on the thin layer chromatograph plate displayed on the image displaying means (D). That is, it is a means for designating which part of the image display means (D) the collecting means (F) is to act on.

The spot designation means (E) is not particularly limited, and for example, a method of moving a cursor by means such as a numeric keypad or a mouse to specify a position, and an image display means (D) as a touch panel, an image display means (D). The method of directly specifying by touching the above can be mentioned.

The collecting means (F) is a means for collecting a spot component in a spot position designated by an operator by the spot designating means (E) described above. The collecting means (F) uses the second invention including the groove forming means (F-1) and the nozzle (F-2) described above, whereby the components constituting the spot can be efficiently obtained. Can be obtained. Further, the collecting means (F) can be moved to an arbitrary position on the thin layer chromatograph plate mounted on the thin layer chromatograph plate mounting means (A).

The thin-layer chromatograph sorter of the present invention may further include an analysis means (G) for analyzing the components of the sorted spots. If qualitative analysis can be performed based on a thin-layer chromatograph plate, it becomes clear in advance which spots are important as objects to be sorted when performing a chromatograph for sorting thereafter. Therefore, the chromatograph conditions (for example, the solvent type to be used, the gradient method, etc.) for obtaining the target spot with high accuracy and efficiency can be predicted before the preparative chromatograph is performed. Therefore, it also helps to improve the efficiency of the preparative chromatograph itself.

Further, by performing the analysis by the analysis means (G), it may become clear that a plurality of kinds of compounds are mixed in one spot. If such facts become clear at the time of thin-layer chromatography, the subsequent experiments can be made more efficient by reexamining the sorting method (for example, changing the chromatograph conditions). It also has the advantage of being able to do it.

The analysis means (G) is not particularly limited, and examples thereof include mass spectrometry, NMR, differential refraction (RI), evaporation type light scattering detector (ELSD), ultraviolet absorption analysis, visible light absorption analysis, and the like. .. Further, as those provided with these plurality of types of analytical means, a preferable analytical means may be selected and used according to the type of the compound to be analyzed. Of these, it is particularly preferable to perform mass spectrometry.

Hereinafter, the thin layer chromatograph sorting device according to the above-described embodiment will be described in more detail with reference to the drawings. 3 to 6 show an example of aspects, and the present invention is not limited to those shown in FIGS. 3 to 6.

FIG. 3 shows an example of the configuration of the spot detection light irradiation means (B), the thin layer chromatograph plate photographing means (C), and the sampling means (F) in the thin layer chromatograph sorting device of the present invention. It is a figure.

In FIG. 3, the thin-layer chromatograph plate 1 has been developed, and the first spot 3-1 and the second spot 3-2 are present. Such a thin layer chromatograph 1 is mounted on the thin layer chromatograph plate mounting means (A) (not shown) in the apparatus.

The thin-layer chromatographic plate 11 is irradiated with light by the spot detection light irradiation means (B), and the spots 3-1 and 3-2 are in a visually recognizable state. The thin-layer chromatograph plate photographing means (C) is a means for photographing such a thin-layer chromatograph plate 1.

The thin-layer chromatograph sorting device of the present invention further includes a sampling means (F). As a result, the spot component in the designated spot 2-1 is collected. In FIG. 3, a nozzle (F-2) is shown as the collecting means (F). Of course, in the present invention, the groove forming means (F-1) is also provided as the collecting means (F). The groove forming means (F-1) and the nozzle (F-2) are movable, and can be moved to a designated position on the thin layer chromatograph plate according to the instructions.

Further, FIG. 5 shows an example of aspects of the image display means (D) and the spot designation means (E).
In the image display means (D), the image of the thin layer chromatograph board 1 taken by the thin layer chromatograph board photographing means (C) is displayed. As a result, the operator can visually confirm the spot position on the thin layer chromatograph plate 1.

In the embodiment shown in FIG. 5, the spot designating means (E) includes a cursor (E-2) for displaying the nozzle (F-2) position and a cursor position moving means (E-1).
Then, the position of the cursor (E-2) in the X-axis-Y-axis direction is specified by the cursor position moving means (E-1), and the position to be acquired by the collecting means (F) is determined by this. Then, when the position is determined, the collecting means (F) operates, and the spot components constituting the spot on the thin layer chromatograph plate 11 are acquired by the above-described configuration.

By repeating such an operation on a plurality of spots on the thin layer chromatograph plate 11, spots for the plurality of spots can be acquired.

FIG. 6 shows an example of the overall configuration of the thin-layer chromatograph sorter of the present invention. The operator installs the developed thin-layer chromatograph plate 1 at a predetermined position in the thin-layer chromatograph sorting device 10 of the present invention. Then, a predetermined spot component is acquired by the method as described above, and the obtained spot component is sent to the analysis means (G) and / or the sorting means (H).

By using the thin-layer chromatograph sorting method of the present invention, the compounds constituting the spots of the thin-layer chromatograph can be sorted and analyzed. As a result, the process of chemical synthesis can be simplified and the efficiency of research can be improved.

1 Carrier 2 Support plate 3 Spot 4 Groove 5 Nozzle 6 Packing part 8 Solvent supply means 9 Suction means 10 Thin-layer chromatograph sorting device 11 Thin-layer chromatograph plate (B) Spot detection light irradiation means (C) Thin-layer chromatography Graph thin-layer plate photographing means (D) Display means (E) Spot indicating means (E-1) Cursor position moving means (E-2) Cursor (F) Collecting means (F-1) Groove forming means (F-2) Nozzle (G) Analytical means (H) Sorting means

Claims (4)

This is a sorting method for sorting spots from a thin-layer chromatograph plate.
Step 1 of removing the carrier at the periphery of the spot to be sorted to form a groove.
Step 2, inserting a nozzle having a packing portion at the tip into the groove formed in step 1.
Step 3 in which the solvent flows out from the nozzle and step 4 in which the solvent in which the spot component is dissolved is sucked.
A thin-layer chromatograph sorting method, which comprises. The thin-layer chromatograph sorting method according to claim 1, wherein the groove formation in the step 1 is performed by pressing the groove forming means against the carrier and rotating the groove. A preparative apparatus for carrying out the thin layer chromatograph preparative method according to claim 1 or 2.
Groove forming means (F-1) for removing the carrier at the periphery of the spot to form a groove, and
A nozzle (F-2) having a packing portion at the tip that can be inserted into a groove formed by the groove forming means.
A preparative device for a thin layer chromatograph, which comprises. A preparative apparatus for carrying out the thin layer chromatograph preparative method according to claim 1 or 2.
Thin-layer chromatograph plate mounting means (A),
Spot detection light irradiation means (B),
Thin-layer chromatograph plate imaging means (C),
An image display means (D) for displaying an image taken by the thin layer chromatograph plate photographing means (C),
The spot designation means (E) in which the worker specifies the spot position in the image displayed on the image display means (D), and the spot designation means (E).
Groove forming means (F-1) for collecting a spot at a position designated by an operator by the spot designating means (E), for removing a carrier at a peripheral portion of the spot to form a groove. ,as well as,
A nozzle (F-2) having a packing portion at the tip that can be inserted into a groove formed by the groove forming means.
Collection means (F)
A preparative device for a thin layer chromatograph, which comprises.