WO2001039876A1

WO2001039876A1 - Cartridge for a device for carrying out chemical or biological reactions

Info

Publication number: WO2001039876A1
Application number: PCT/EP2000/007791
Authority: WO
Inventors: Wolfgang Heimberg; Jan Nikolaides
Original assignee: Mwg-Biotech Ag
Priority date: 1999-12-03
Filing date: 2000-08-10
Publication date: 2001-06-07
Also published as: DE20023073U1; DE29921606U1; AU6837100A

Abstract

The innovation relates to a cartridge for a device for carrying out chemical or biological reactions, in particular, a device for the synthesis of oligonucleotides. Said cartridge comprises a hollow chamber, filled with a support material suitable for the coupling of nucleotides, whereby two opposing faces of the hollow chamber each comprise an opening. Said cartridges can easily be handled in large numbers. The height of the cartridge is preferably greater than the depth of the corresponding recess in the device for the synthesis of oligonucleotides, such that the front face of the cartridge is pressed against the opposing element of the device, forming a seal with said element.

Description

Cartridge for a device for carrying out chemical or biological reactions

The present invention relates to a cartridge for a device for carrying out chemical or biological reactions, and in particular the present invention relates to a cartridge for a device for synthesizing oligonucleotides.

A device for synthesizing oligonucleotides is known from WO 93/17783. This device has four superposed rods which are arranged to be displaceable relative to one another. A predetermined number of reaction chambers are formed in one of the rods. The remaining rods have passageways so that chemicals for producing the oligonucleotides can be fed to the reaction chambers. The reaction chambers are filled with a carrier material. The carrier material can consist of glass particles (CPG = controlled pore glass) or plastic particles. Nucleotides can be coupled to the carrier material, on which further nucleotides can form for the formation of the oligonucleotides.

After the oligonucleotide synthesis has been carried out, the carrier material is removed from the reaction chambers and fed to a further device. The synthesized oligonucleotides are cleaved off in this further device. Ammonia is generally used for the cleavage. The use of carrier materials in oligonucleotide synthesis is evident, for example, from US Pat. No. 5,262,530, US Pat. No. 5,132,418, US Pat. No. 5,153,319 or US Pat. No. 5,047,524.

In a device for the synthesis of oligonucleotides, in which an oligonucleotide synthesis is carried out simultaneously in several reaction chambers, after completion of the oligonucleotide synthesis either each reaction chamber must be emptied individually or the element into which the reaction chambers are introduced must be fed to a further device for splitting off the oligonucleotides.

The reaction chambers must be emptied manually, which considerably delays the automated synthesis of the oligonucleotides. The element having the reaction chambers is not available for a further synthesis process during the cleavage of the oligonucleotides.

After a synthesis process, the reaction chambers must be cleaned and filled with a new carrier material. Frits are used in the reaction chamber below and above the carrier material. This work must also be carried out manually.

A wafer is described in WO 88/05074. This wafer consists of a long tube section and two short tube sections. Membranes are arranged on the end faces of the long pipe section, which protrude laterally over the long pipe section. The short pipe sections are then pushed over the membranes onto the long pipe section so that the pipe sections and the membranes form a unit. A carrier material for synthesizing polynucleotides is inserted into this unit. These membranes must be attached to the wafer manually, since they protrude laterally on the long tube section and must be positioned exactly before the short tube sections are pushed on. The handling of these wafers is therefore very complex.

The invention has for its object a cartridge for a device for carrying out chemical or biological reactions and in particular for a To provide a device for synthesizing oligonucleotides, which eliminates the disadvantages mentioned above.

To achieve this object, the invention has the features specified in claim 1. Advantageous refinements of this are specified in the further claims.

The cartridge according to the invention for a device for carrying out chemical or biological reactions, in particular for synthesizing oligonucleotides, has a hollow body which is filled with a carrier material suitable for coupling oligonucleotides, and on two opposite walls of the hollow body, each with an opening is provided.

The device for synthesizing oligonucleotides is provided with recesses into which the cartridges can be inserted. If a synthesis process is carried out with such a device, after the synthesis process has ended, only the cartridges need to be removed and fed to a further device for splitting off the synthesized oligonucleotides. The elaborate removal of the carrier material from the reaction vessels is eliminated by using the cartridges according to the invention. The element of the synthesizing device, which has the recess for receiving the cartridges, can remain in the device, since after a synthesizing process, only the cartridges are removed and fed to a device for splitting off the oligonucleotides generated.

With the cartridges according to the invention, the production pause between two synthesizing processes on a synthesizing device can be considerably shortened, since the cartridges already used can be quickly removed from the synthesizing device and replaced by unused cartridges. In particular, it should be borne in mind that, in conventional synthesizers, two frits are used in addition to the carrier material, which considerably increase the effort involved in replacing the carrier material, since these frits have to be inserted and fitted by hand. According to the particularly preferred embodiment of the cartridge according to the invention specified in claim 5, the hollow body is formed in two parts from a base part and a cover. An elastic element is arranged between the base part and the cover such that the height of the cartridge in the unloaded state is somewhat greater than a recess for receiving the cartridge in a device for carrying out chemical or biological reactions. Such devices have elements in the area above and / or below the recess, which have passages for supplying and discharging chemicals. These elements are pressed against the cartridge, so that it closes tightly with these elements. The elastically compressible arrangement of the base part and the cover thus effects a sealing function during operation of the device for carrying out chemical or biological reactions.

This cartridge is preferably used in combination with a device in which the elements lying against the cartridge can be releasably pressed against one another. Since these elements are generally arranged to be displaceable relative to one another, the elements can be pressed against one another while chemicals are being passed through the openings of the cartridge, so that optimum tightness is achieved. These elements of the device are not moved during the passage of chemicals through the cartridge. In certain operating states, it is expedient for these elements to be shifted against one another. With such a displacement of the elements, it is advantageous if the pressure between the elements is released. This enables the elements to be moved quickly and without wear. When the elements are compressed again, pressure is again exerted on the cartridges protruding from the recesses, as a result of which the cartridge is again sealed off from the elements lying against it.

Exemplary embodiments of the invention are explained in more detail below with reference to the drawing. The drawings show schematically:

1 shows a section through a region of a device for synthesizing oligonucleotides with cartridges according to the invention according to a first exemplary embodiment, 2 shows a section through a region of a device for synthesizing oligonucleotides with cartridges according to the invention according to a second exemplary embodiment, and

3 shows a section through a region of a device for synthesizing oligonucleotides with cartridges according to the invention according to a third exemplary embodiment, and

Fig. 4 is a bottom view of the lid shown in Fig. 3.

1 shows a section through a region of a device for synthesizing oligonucleotides which has three elements which can be displaced relative to one another. In the illustrated embodiment, the three elements are three plates 1, 2, 3 with a thickness D of e.g. 12 mm. The three plates 1, 2, 3 are arranged one above the other, the top and bottom plates each having a single passage 4 for the passage of chemicals. Recesses 5 are made in the middle plate 2. In the present exemplary embodiment, the recesses are bores with a diameter of, for example, 8 mm. A cartridge 6 according to the invention is inserted in each of the recesses 5.

The cartridge 6 has a hollow body 7 which is designed as a hollow cylindrical body with a jacket wall 8 and a bottom wall 9. A passage 10 is made in the center of the bottom wall 9. In the position of the plates 1, 2 shown in FIG. 1, the passage 10 of the middle cartridge 6 is aligned with the passage 4 of the plate 1. A frit 11 rests on the bottom wall 9. The interior of the hollow body 7 is filled with a carrier material 12, which is covered at the top by a further frit 13. The top of the upper frit 13 is arranged approximately flush with the upper edges of the jacket wall 8 of the carrier body 7. The frits 11, 13 are permeable to liquids, felt-like elements, which usually consist of polyethylene fibers. The carrier material is a bed of small glass or plastic particles. The carrier material 12 is usually porous. If the carrier material particles are made of glass, then CPG (controlled pore glass) is used. However, if the carrier material is made of plastic, it is expedient to use polystyrene particles, since these can be produced with a certain porosity.

The height H, that is to say the distance between the outer surface of the bottom wall 9 and the upper edge of the casing wall 8 or the outer surface of the upper frit 13, is in this exemplary embodiment not greater than the thickness D of the plate 2. To compensate for tolerances, it can be expedient that the cartridge 6 is formed with an undersize compared to the plate 2, that is, that its height H is slightly less than the thickness D of the plate 2. The interior of the hollow body 7 filled with the carrier material 12 forms the reaction chamber of the device for synthesizing oligonucleotides. This means that when two cartridges are exchanged, the reaction chamber is completely removed from the device and replaced with a new one. It is therefore not necessary to clean the reaction chamber after a synthesizing process, as is the case with conventional synthesizing devices in which the reaction chambers are an integral part of the devices.

After completion of a synthesizing process, the upper plate 3 is lifted from the middle plate 2 and the used cartridges 6 are removed and replaced by unused cartridges 6. The upper plate 3 is then placed back on the middle plate 2, and the device for synthesizing can be used again after an extremely short production break for synthesizing further oligonucleotides. The cartridges used are fed to a device for cleaving the oligonucleotides from the carrier material.

The actions to be carried out between two synthesizing processes are limited to the replacement of the cartridges by the use of the cartridges according to the invention. Frits do not have to be removed and reinserted, and the carrier material has to be removed individually and replaced with a new one. With the cartridges according to the invention, the production pauses between two synthesizing processes can therefore be considerably reduced, as a result of which the productivity achieved with a synthesizing device can be increased accordingly. In addition, handling the cartridges is much easier than inserting and removing the individual elements. 2 shows a further device for synthesizing oligonucleotides with a preferred exemplary embodiment of the cartridges 6 according to the invention.

The device for synthesizing oligonucleotides in turn has three plates 1, 2, 3, which are designed in exactly the same way as plates 1, 2, 3 of the first exemplary embodiment, that is to say that the outer plates each have a passage 4 and the middle plate 2 is provided with recesses 5 for receiving the cartridges 6.

The cartridge according to the second exemplary embodiment has a hollow body formed from a base part 14 and a cover 15. The base part 14 is cylindrical with a jacket wall 16 and a bottom wall 17. An opening 18 is made in the center of the bottom wall 17 and is aligned with the passage 4 of the lower plate 1 in the position of the plates 1, 2 shown. An upper region 16a of the casing wall 16 is made thinner than the area 16b of the casing wall 16 adjoining the bottom wall 17, as a result of which an annular step 19 is formed on the inner surface of the casing wall 16. This ring step 19 is arranged approximately halfway up the cartridge 6. The cover 15 has a disk-shaped cover wall 20 and a cylindrical plug-in wall 21 formed on the cover wall. The outer circumference of the cylindrical plug-in wall 21 corresponds approximately to the inside diameter of the thinner-walled area 16a of the jacket wall 16 of the base part 14, so that the cover 15 can be inserted into the base part 14 approximately in a form-fitting manner.

An O-ring 22 is arranged between the ring step 19 and the end edges of the plug-in wall 21. The O-ring 22 serves as an elastic element between the base part 14 and the cover 15, so that when the cover 15 and the base part 14 are pressed together, the cover 15 can be inserted elastically into the base part 14. Another, thin O-ring 23 is inserted between the plug-in wall 21 and the thin-walled area of the jacket wall 16, which ensures a frictional connection between the cover 15 and the base part 14, so that when the cartridge is handled it is ensured that the cover 15 does not detach from the base part 14. Indoors space of the two-part hollow body 14, 15, in turn, two frits 11, 13 and a carrier material 12 are provided for coupling nucleotides.

An opening 24 is made in the center of the disk-shaped cover wall 20. The openings 18, 24 of the middle cartridge 6 from FIG. 2 are aligned with the passages 4 of the lower and upper plates 1, 3 in the position of the plates 1, 2, 3 shown in FIG. 2.

The cartridge 6 shown in FIG. 2 can be handled just as easily when exchanging as the cartridge shown in FIG. 1, which is why reference is made in this regard to the explanations given above.

This cartridge differs from that of the first exemplary embodiment in that the cover 15 and the base part can be elastically compressed by providing the O-ring 22. The O-ring 22 thus acts as a spring element which, when the cartridge 6 is compressed, produces an elastic force which pushes the cover 15 and the base part 14 apart. The cartridge 6 is therefore designed such that its height H in the unloaded state is somewhat larger than the thickness D of the plate 2, as a result of which the approximately cylindrical cartridge 6 projects with its end faces on the recess 5.

A device preferably acts on the plates 1, 2, 3, which releasably presses the plates 1, 2, 3 together. If such pressure is exerted on the plates 1, 2, 3, the plates 1 and 3 are pressed against the end faces of the cartridge 6, that is to say that the cover 15 and the base part 14 are pressed together against the elastic action of the O-ring 22 become. The end faces, that is to say the outer surfaces of the disk-shaped cover wall 20 or the outer surface of the bottom wall 17, are thereby pressed against the abutting surfaces of the plates 1, 3. This ensures maximum tightness at the interfaces between the plates 1 and 3 and the cartridge 6, so that leakage when chemicals are passed through the passages 4 in the plates 1, 3 and the openings 18, 24 in the cartridge 6 is reliably avoided becomes. If the plates 1, 2, 3 are moved towards one another, the pressure between the plates 1, 2, 3 can preferably be released, as a result of which the frictional forces occurring during the movement between the cartridges 6 and the outer plates 1, 3 are reduced and rapid and precise movement of the plates is permitted.

With these cartridges 6, a maximum tightness is achieved by the pressure at the interfaces when chemicals are passed through the passages 4 or the openings 18, 24. In addition, the cartridges according to the invention have the effect that when the pressure between the plates 1, 2, 3 is released, the plates are pressed apart by the spring action of the cartridges 6, as a result of which the plates 1, 2, 3 lie against one another only with little pressure or even a narrow gap between them can be trained. As a result, there is only minimal wear on the plates 1, 2, 3 when they are moved. Only the cartridges 6 are subject to wear, this wear being insignificant in practice, since the cartridges 6 are exchanged after use and are used only in a single synthesis process.

Basically, it is also possible that the cartridges can be reused.

3 and 4, a third, preferred embodiment of the cartridge 6 according to the invention is shown. FIG. 4 shows the section line A-A of the section view from FIG. 3.

This cartridge 6 in turn has a hollow body formed from a base part 14 and a cover 15. The base part 14 is cylindrical with a jacket wall 16 and a bottom wall 17. An opening 18 is made in the center of the bottom wall 17. An upper area 16a of the jacket wall is made thinner than the area 16b of the jacket wall 16 adjoining the bottom wall 17. The inner surfaces of the upper and lower areas 16a, 16b of the jacket wall 16 are aligned, so that an annular step 25 is formed on the outer surface of the jacket wall. On the upper edge 16a of the thin-walled area of the casing wall 16a, a radially outwardly protruding locking lug 26 is formed, which extends in a ring around the casing wall 16. The detent 26 is chamfered on its upper end face from the top inside outwards.

The cover 15 in turn has a disk-shaped cover wall 20 and a cylindrical plug-in wall 21 formed on the cover wall. The inner circumference of the cylindrical plug-in wall 21 corresponds approximately to the outer diameter of the thin-walled area 16a of the jacket wall 16 of the base part. At the lower edge of the plug-in wall 21 a radially inwardly projecting locking lug 27 is formed, which forms a closed ring. The detent 27 is bevelled on its lower end face from the bottom outside upwards inside.

The plug-in wall 21 is provided with five vertically extending slots extending to the cover wall 20, so that the plug-in wall 21 is divided into five elastic plug-in arms 28 (FIG. 4).

The cover wall 20 has an opening 24 in the center, a recess 29 being formed in the region of the opening 24 on the inner surface of the cover wall 20 for receiving a frit 13. In the corner area formed by the cover wall 20 and the plug-in wall 21, an O-ring 30 is used as the sealing element.

Another O-ring 31 is arranged on the ring step 25.

When the cover 15 is attached to the base part 14, the bevelled locking lugs 26, 27 slide past one another, so that the plug arms 28 are spread and pushed onto the jacket wall 16 until the locking lugs 26, 27 engage behind and lock the cover 15 on the base part 14.

The O-ring 30 of the cover 15 is then clamped between the cover wall 20 and the end face of the casing wall 16 of the base part 14, so that it seals the interior of the cartridge 6. The O-ring 31 of the base part 14 is clamped between the end face of the plug-in wall 21 and the ring step 25. As a result, the O-ring 31 is compressed somewhat so that it protrudes a little on the outer wall of the entire cartridge. This board of the O-ring 31 creates a frictional connection between the cartridge and a recess in a plate of a device for synthesizing, as a result of which the cartridge is held in the corresponding recess.

In addition to the two functions of sealing and generating a frictional connection described above, the two O-rings 30, 31 fulfill a further function, namely that the cover 15 and the base part 14 can be elastically compressed due to their elasticity. There is thus the same spring action and thus the same functionality as in the second exemplary embodiment, that is to say that the cartridge protrudes from the recess in the plate when the load is low and that pressure is built up when the adjacent plates are loaded so that the cartridge 6 counteracts is sealed over the surfaces of the adjacent panels.

The O-ring 30 of the cover 15 can be harder and / or thicker than the O-ring 31 of the base part 14 and / or the plug-in wall 21 can be longer than the thin-walled area of the jacket wall 16a. As a result, the spring action is generated essentially solely by the O-ring 30 of the cover 15. The tolerances in the plug-in direction on the plug-in wall 21 and the thin-walled area of the jacket wall 16a caused by the production hardly influence the spring action in such an embodiment.

The O-ring 31 of the base part 14 can be formed with a larger outer circumference than the other parts of the cartridge 6, so that it also projects in the unloaded state to produce a frictional engagement on the outer surface of the cartridge 6.

The O-ring 31 arranged in the area of the lateral surface 31 can serve to identify a starting base which is attached to the carrier material. The O-ring 31 is then colored with a color corresponding to the starting base.

The invention has been explained in more detail above on the basis of exemplary embodiments. However, modifications can be made within the scope of the invention. So For example, the thin-walled region 16a of the jacket wall 16 of the base part 14 can be arranged inside the plug-in wall 21. It is also possible to provide elastic elements other than an O-ring between the base part and the cover. In the case of mass production of the cartridges, it may be expedient to form an egg-shaped tab integrally with the base part or the cover part, which ensures this elasticity between the two parts. Within the scope of the invention it is also possible to form the hollow body in one piece with an elastic, bellows-like part between the base part and the cover. Instead of a bellows, the wall thickness of the hollow body can be reduced in some areas so that an elastic effect is achieved.

The third exemplary embodiment can be modified such that the plug-in wall 21 is formed in one piece without slots, and instead the thin-walled region of the jacket wall 16a is divided into a plurality of plug-in arms by means of slits. In this embodiment, the O-ring 30 of the cover 15 can be dispensed with, since the O-ring 31 of the base part 14 also performs the sealing function in addition to the function of the spring element and the frictional engagement. The number of plug-in arms can also vary. For example, 4 to 8 plug-in arms useful.

The third embodiment of the invention can also be modified such that the frictional engagement is generated by one or more lips, tabs or other projections integrally on the hollow body (base part, cover).

Instead of a friction locking means, a form locking means, e.g. an annular step can be formed on the outer wall of the cartridge 6, e.g. the upper area of the cartridge has a slightly larger diameter than the lower area. This ring step can produce a positive connection with a corresponding ring step in the recess of the plate, which prevents the cartridge from falling out of the recess.

The base part 14 and the lid 15 are preferably made of Teflon, which has good sliding properties and is low-wear and inert to most chemicals. Instead of the frits 11, 13, other filter elements, such as thin membranes, can be used.

LIST OF REFERENCE NUMBERS

1 plate 30 O-ring

2 plate 31 O-ring

3 plate

4 round

5 recess

6 cartridges

7 hollow body

8 jacket wall

9 bottom wall

10 passage

11 frit

12 carrier material

13 frit

14 base part

15 lids

16 jacket wall

16a thin-walled area of the jacket wall

16b thick-walled area of the jacket wall

17 bottom wall

18 opening

19 ring step 0 cover wall 1 plug-in wall 2 O-ring 3 O-ring 4 opening 5 ring web 6 locking lug 7 locking lug 8 plug-in arms 9 recess

Claims

claims

1. Cartridge for a device for carrying out chemical or biological reactions, in particular for a device for synthesizing oligonucleotides, with a hollow body (7) which is filled with a carrier material (12) suitable for coupling nucleotides, with two opposite sides an opening is provided in each case of the hollow body (7).

2. Cartridge according to claim 1, characterized in that a frit (11, 13) is arranged adjacent to the openings.

3. A cartridge according to claim 1 or 2, characterized in that nucleotides are coupled to the carrier material (12), to which further nucleotides can be coupled to form an oligonucleotide.

4. Cartridge according to one of claims 1 to 3, characterized in that the hollow body (7) is formed from a thin-walled, cylindrical body, the hollow body (7) having a bottom wall (9) into which one of the two openings is introduced , and the other opening is delimited by a jacket wall (8) of the cylindrical hollow body (7).

5. Cartridge according to one of claims 1 to 3, characterized in that the hollow body (7) is provided with an elastic element (22; 30) such that the height (H) of the cartridge in the unloaded state is somewhat larger than a recess for receiving the cartridge (6) in a device for carrying out chemical or biological reactions so that when the recess is acted upon by one or more further elements (1, 3) which have passages (4) for supplying and discharging chemicals, the cartridge (6) against the further elements (1, 3) is pressed and fits tightly with these.

6. Cartridge according to claim 5, characterized in that the elastic element is an O-ring (22; 30).

7. Cartridge according to claim 5 or 6, characterized in that the base part (14) is cylindrical with a jacket and a bottom wall (16, 17).

8. A cartridge according to claim 7, characterized in that the cover (15) has a disc-shaped cover wall (20) and a cylindrical plug-in wall (21) formed on the cover wall (20), the plug-in wall (21) and the jacket wall (16) of the base part (14) engage approximately in a form-fitting manner.

9. Cartridge according to claim 8, characterized in that between the plug-in wall (21) of the cover (15) and the casing wall of the base part, an element for forming a frictional engagement, such as e.g. an O-ring (23) is used.

10. A cartridge according to claim 8 or 9, characterized in that the plug-in wall (21) and / or a region of the jacket wall (16) is divided into elastic plug-in arms (28).

11. Cartridge according to one of claims 8 to 10, characterized in that the plug-in arms (21) and / or the jacket wall (16) are designed with latching elements for latching the cover (15) on the base part (14).

12. Cartridge according to one of claims 8 to 1 1, characterized in that an O-ring (31) between the cover (15) and the base part (14) adjacent to the outer surface of the cartridge (6) is arranged such that at Loading of the O-ring (31) protrudes on the outer surface, so that a frictional engagement can be generated in a recess for receiving the cartridge.

13. Cartridge according to one of claims 1 to 1 1, characterized in that the cartridge is provided on its peripheral surface with a frictional engagement means and / or form-locking means, which can produce a frictional engagement and / pder positive engagement with a recess for receiving the cartridge.

14. Device for synthesizing oligonucleotides, with an element (2) which has a plurality of recesses (5) for receiving cartridges (6) designed according to one of claims 1 to 13, the cartridges (6) delimiting reaction chambers of the device.

15. The apparatus according to claim 14, characterized in that adjacent to the the recesses (5) having the element (2) further elements (1, 3) are provided which have passages (4) for supplying and discharging chemicals, wherein at least one of the three elements (1, 2, 3) is slidably arranged relative to the other two elements (1, 2, 3), and a device is provided with which the three elements (1, 2, 3) can be detachably attached - can be pressed against one another.

16. Use of a cartridge according to one of claims 5 to 13 in a device for carrying out chemical or biological reactions, with an element (2) which has a plurality of recesses (5) for receiving cartridges (6), the cartridges (6) Reaction chambers of the device limit that, adjacent to the element (2) having the recesses (5), further elements (1, 3) are provided which have passages (4) for supplying and discharging chemicals, at least one of the three elements (1, 2, 3) is slidably arranged with respect to the other two elements (1, 2, 3), and a device is provided with which the three elements (1, 2, 3) can be releasably pressed together, and the Height (H) of the cartridge in the unloaded state is slightly larger than the height of the recesses for receiving the cartridges (6), so that when one or more further elements (1, 3) are applied to the recess, the passages ( 4) for supplying and discharging chemicals, the cartridge (6) is pressed against the other elements (1, 3) and seals them tightly.