DE4411588C1 - Buffer, contg. betaine, for RNA- and DNA-polymerase reactions - Google Patents

Abstract

Buffer for RNA and DNA-polymerase reactions, which contains betaine, is new.

Description

The invention relates to a buffer for DNA and RNA Polymerase reactions containing betaine and Ver Use of betaine in DNA and RNA polymerase reactions NEN, especially in the specific polymerase chain ten reaction and in the reverse transcription of RNA in cDNA (RT).

It is known that the polymerase chain react tion used buffer Tris-HCL, tricin, potassium chloride and include magnesium chloride. Also the addition by DMSO (Winship, P.R. et al., 1989, Nucl. Acids Res. 17, 1266) or non-ionic detergents (Bachmann, B. et. al., 1990, Nucl. Acids Res. 18, 1309) to improve the DNA sequencing reaction and base mismatches to avoid.  

Hung et. al. describe in Nucl. Acids Res. Vol. 18, No. 16, 4953 (1990) the addition of tetrameythylammoni umchloride to the usual PCR buffers to the specifi the PCR.

To amplify DNA molecules with more than 6 kbp, is by M. R. Ponce et. al. in nucl. Acids Res. Vol. 20, No. 3, 623 (1992) the addition of beta-mercaptoetha nol, gelatin and thesite are described.

However, all the PCR buffers mentioned have the disadvantage on that the Am plication of certain DNA molecules negatively affected can be. In addition are dimethyl sulfoxide and Tetramethylammonium chloride toxic.

It has now been found that buffers, the N, N, N trime thylglycine (betaine) and no potassium, ammonium or Contain tetraalkylammonium ions, very good for specific polymerase chain reactions are suitable.

The concentration of betaine in the buffer according to the invention can be 200 to 1000 mM. For example, it has been shown in the specific PCR of HLA antigens that a composition of the buffer of 500 to 800 mM betaine and 1 to 6 mM magnesium chloride is optimal. In particular, the buffer for the specific amplification of HLA-B alleles contains 500 to 800 mM betaine, 1 to 6 mM magnesium chloride, 8 to 12 mM N-tris (hydroxymethyl) methylglycine with pH 8.3 and 93 to 106 µg / ml BSA V. The PCR of a fragment of the HLA-B gene containing sequences from exon 2 to exon 3, such as, for example, of B 27, B27 subtypes, B 12, B 44, B 45, B 7, BW 22, B 13 , B 14, B 18, B 73, B 41, B _* 4001 or B 42 carried out with 2 allele-specific oligo deoxynucleotide primers which match at the 3'-end in the last three nucleotides with the allele sequence sought and in the rest Sequence are at least 80% homologous to the allele sequence.

Surprisingly, it was also found that betaine-containing buffers for the reverse transcription of RNA in cDNA are very suitable. A positive influence on reverse transcription of secondary structures RNA was detected.

In particular, the buffers according to the invention for reverse transcription of RNA into cDNA using of an oligo-dT primer and M-MLV reverser Transcriptase up to 3 M betaine and possibly also Contain potassium chloride. The activity of the reverse Transcriptase, like the activity of Taq- Polymerase, not noticeably affected by betaine.

A buffer according to the invention for reverse transcription of RNA into cDNA preferably contains 1 to 3 M betaine, 60 to 75 mM potassium chloride and 1 to 6 mM magnesium chloride, for example using oligodeoxythymidine ((dT) _12-18 ) and M-MLV reverse transcriptase .

In another preferred embodiment, the Buffer for reverse transcription of RNA in cDNA too  1 to 3 M betaine, 20 to 75 mM potassium or Contain ammonium ions and 1 to 10 mM magnesium ions.

In summary, betaine combines a number of advantages of conventional cosolvents previously used in PCR and reverse transcription:
It is chemically inert and non-ionic, meaning that it can be combined with a number of other cosolvents and salts to create optimal reaction conditions for the respective primers and templates.

It also makes transcription easier for GC-rich people Domains. Since only GC base pairs are destabilized, primers can be chosen so that their hybridi sation with the target sequence as little as possible is affected.

General destabilization of dsDNA, e.g. B. by glycerol, dimethyl sulfoxide or formamide also lowers the hybridization temperature of the primers and thus has both positive and negative effects on the yield of DNA polymerase reactions. Betain is unique among non-ionic cosolvents in its ability to bind and thereby stabilize AT base pairs. Since non-ionic cosolvents generally destabilize dsDNA, a specific destabilization of GC-rich domains in DNA and RNA takes place in the presence of betaine. However, betaine is considerably cheaper than deoxyguanidine analogues, such as those used successfully in sequencing and PCR, and can also be used in RT. AT-rich primers such as B. (dT) _12-18 in RT, however, are less affected than GC-rich domains in the template.

Magnesium chloride is an essential cofactor for DNA Polymerases, however, the optimal concentration depends on the PCR strongly from the respective primers or templates from. In the presence of betaine, it expands optimal range, which optimizes especially of co-amplifications ("multiplex-PCR"), simplified.

Furthermore, it is known that both NaCl and heparin can occur as contaminants in DNA samples. In concentrations between 2.5 · 10 ^-4 - 10 ^-3 U / µl, heparin has similar effects to NaCl. Heparinase digestion or pretreatment of heparin-containing DNA with Chelex 100 has therefore been proposed in the prior art (Francesca Poli, Rosa Catteano, Loretta Crespiatico, Angelea Nocco and Girolamo Sirchia, PCR Methods and Applications, 1993, 2, 356-358).

It has now been found that the PCR yields especially of HLA-B, in heparin-containing DNA Samples in the presence of betaine improved significantly can be. These findings are preferred at betaine concentrations of 500-800 mM. In present of 0.8 M betaine is up to 10 times higher heparin concentrations tolerated.

So betaine does the purification of salt or DNA samples containing heparin largely unnecessary,  what especially in the routine examination clinical and forensic samples is beneficial.

Next to it is betain is in contrast to the cosolvencies DMSO, formamide and methyl mercury hydroxide are non-toxic and a natural protection that cells receive over the course of Evolution against thermal and ionic denaturation have developed their proteins.

The activity of Taq polymerase and the reverse Transcriptase is not noticeable through betaine impaired.

The invention will hereinafter be described by way of example games are explained in more detail:

Embodiments 1. Polymerase chain reaction of HLA-B alleles a) Reaction approach

The amplifications are carried out in DNA thermocyclers (e.g. the DNA thermal cycler 480 from Perkin-Elmer-Cetus) performed in 500 µl "Eppendorf" reaction vessels. DNA is generated by digestion of samples to be examined with proteinase K and subsequent phenol / chloroform Extraction won. Amounts of 50 to 1000 ng in a 20 µl reaction volume used.  

The approach also includes:

10 mM N-tris (hydroxymethyl) methylglycine, pH 8.3 at 20 ° C (tricin)
100 µg / ml bovine serum albumin (BSA V)
0.2 mM per nucleotide triphosphate (dATP, dCTP, dGTP, dTTP)
3 ng / µl per primer
0.025 U / µl Taq polymerase

with TNFβ as control:

600 mM N, N, N-trimethylglycine (betaine)
3 mM magnesium chloride

with genes XA / XB as control:

800 mM N, N, N-trimethylglycine (betaine)
4 mM magnesium chloride

b) temperature steps

The PCR programs are described in the following Temperature steps carried out:

According to the invention, they are found in the presence of betaine Hybridization temperatures that are about 10 ° C lower than the theoretical denaturation temperature the primer, and MgCl₂ concentrations between 3 and 4 mM as beneficial.  

c) detection

Successful amplification of internal control and optionally an allele-specific HLA-B fragment is by electrophoresis in a 1.5% Agarose gel, 0.5x TBE buffer tested. DNA bands by staining with ethidium bromide and fluorescence made visible under a UV lamp. The length of the PCR products obtained is a control for that Specificity of the PCR for HLA-B.

d) results

HLA-B27, B 7, B 8, B 41, B 42, B 60, B 61 and B 73 were successfully amplified under the above conditions. The specificity of the HLA-B PCR was tested using the following standard cell lines:
There were positive controls

• a) for B27 and its subtypes: HOM2, JESTHOM, WT24, LS40 and the non-standardized lines LH, NW, R69 and Wewak,
• b) for B60 (B _* 40012): SLE, MADURA, MT14B, PE117, BRU, RLO, LS40 (B27 / B60)
• c) for B7: HHKB, SAVC, LD2B, R69 (B7 / B27)
• d) for B8: VAVY, LH (B8 / B27)
• e) for B42: RSH
• f) for B41: RLO (B38 / B41)
• g) for B61 (B _* 4002): SWEIG

Numerous also served as a negative control further, for the most common HLA-B alleles representative, standard lines or lines whose Allele sequence to one of the two primers used was completely complementary (e.g. B14 and B16 with B7CREG1 in the B27-PCR).

Of 50, both serologically and with the help of PCR HLA-B27 donors were examined in 43 cases positive agreement between both tests and in 6 Cases found negative match. A sample of a patient with Bechterev was serologically B27- negative and positive based on the PCR result. once was not a PCR product from a serologically positive one receive healthy donors. The specificity of the PCR Products were continued through gel electrophoresis (Size) and in the amplification products of 22 various fully HLA-B typed B27 heterozygous samples by digestion with Restriction enzymes confirmed.

Nonspecific (co) amplifications were found among the not observed above conditions.

To the influence of tetramethylammonium chloride, betaine and NaCl towards the amplification of B7, B8 and B27 four buffers containing 50 mM KCl were examined and 1.5 mM MgCl₂ tested: two commercially available (Boehringer Mannheim, Promega) with Tris and two own with Tris or Tricine.  

It was found that 50 mM KCl as well as low Impurities with 5-10 mM NaCl (final) the PCR of the HLA-B alleles of the internal controls only at 70 mM Obstruct NaCl concentrations. Improved ampli However, fication is in the presence of 50 mM TMACl achieved and optimal PCR of HLA-B7, B8 and B27 0.6-1.0 M betaine and 2.5-4 mM MgCl₂ concentrations. Above these limits, betaine has an inhibitory effect a PCR with the above primers. While the Absence of internal controls isostabilizing substances more robust than the HLA-B Is PCR, this ratio reverses in the presence of Betain and TMACl around.

2. Reverse transcription with M-MLV reverser Transcriptase a) Reaction approach

3.0 MN, N, N-trimethylglycine (betaine)
50 mM Tris (hydroxymethyl) aminomethane (Tris) pH 8.3 at 20 ° C
75 mM KCl
3 mM MgCl₂
10 mM 1.4 dithio-threitol (DTT)
400 mM per nucleotide triphosphate (dATP, dCTP, dGTP, dTTP)
100 mM oligodeoxythymidine ((dT) _12-18 )
10 U / 41 Murine Moloney-Leukaemie virus reverse transcriptase (M-MLV) (manufacturer: GIBCO BRL)

RNA from approx. 2 × 10⁵ blood cells is isolated by guanidine iso thiocyanate / phenol extraction obtained and distilled dissolved water.

Pre-denaturation occurs in the presence of oligo deoxythymidine for 10 minutes at 65 ° C. Then be the remaining reagents added and added for 60 minutes Incubated 37 ° C, 43 ° C or 51 ° C.

The cDNA obtained is obtained by semiquantitative PCR T cell receptor genes V-beta8, V-beta20 and C-alpha estimated.

It was found that betaine was found in concentrations up to 3 M no visible disadvantage on the cDNA yield at the usual reaction temperatures, however Advantage that the elevated temperature of 51 ° C from M- MLV reverse transcriptase significantly better than in ago conventional RT buffers without betaine is tolerated.

Claims (15)

1. Buffer for DNA and RNA polymerase reactions, ent holding betaine. 2. Buffer according to claim 1 for the specific polymer rase chain reaction (PCR), preferably for the PCR of histocompatibility antigens (HLA). 3. Buffer according to claim 1 or 2 for the specific PCR of HLA-B alleles using Taq Polymerase. 4. Buffer according to one of claims 2 or 3, containing 200-1000 mM betaine. 5. Buffer according to one of claims 2 to 4, containing 200 to 1000 mM betaine and 1 to 6 mM magnesium chloride. 6. Buffer according to one of claims 2 to 5, containing 500 to 800 mM betaine, 1 to 6 mM magnesium chloride, 8 to 12 mM N-tris (hydroxymethyl) methylglycine with pH 8.3 and 93 to 106 µg / ml BSA V. 7. Buffer according to claim 1 for the reverse Transcription of RNA into cDNA, preferably under Use of an oligo-dT primer and M-MLV reverse transcriptase.   8. Buffer according to claim 1 or 7 for the reverse transcription of RNA in cDNA using oligodeoxythymidine ((dT) _12-18 ). 9. Buffer according to claim 7 or 8, containing up to 3 M betaine. 10. Buffer according to one of claims 7 to 9, containing 1 to 3 M betaine, 20 to 75 mM potassium or Ammonium ions and 1 to 10 mM magnesium ions. 11. Buffer according to claim 10, containing 1 to 3 M betaine, 60 to 75 mM potassium chloride and 1 to 6 mM magnesium chloride. 12. Use of betaine for DNA and RNA polymerase Reactions. 13. Use according to claim 12 for the specific PCR, preferably for the PCR of histocompatibility activity antigens (HLA). 14. Use according to claim 12 or 13 for Amplification of a fragment of the HLA-B gene containing sequences from exon 2 to exon 3. 15. Use according to claim 12 for the reverse trans description of RNA in cDNA, preferably with Ver using an oligo-dT primer and M-MLV reverser Transcriptase.