In the presence of the Nt.BspD6I nicking endonuclease DNA polymerase Bst stimulates intensive template/primer-independent DNA synthesis. Template/primer-independent DNA synthesis could be the reason for appearing nonspecific DNA products in many DNA amplification reactions particularly in the reactions with using nicking endonucleases. Search of the modes for inhibition template/primer-independent DNA synthesis becomes an urgent task because of broadening the DNA amplification methods with using nicking endonucleases. We report here that the E. coli single-stranded DNA binding protein has no effect on the template/primer-independent DNA synthesis. In the absence of the nicking endonuclease the single-stranded DNA binding protein encoded by bacteriophage T4 gene 32 completely inhibits template/primer-independent DNA synthesis. This protein does not inhibit synthesis of specific DNA product in the presence of nicking endonuclease but remarkably decreases the amount of nonspecific products.
Two site-specific DNA methyltransferases, M.BcoKIA and M.BcoKIB, were isolated from the thermophilic strain Bacillus coagulans K. Each of the methylases protects the recognition site 5'-CTCTTC-3'/5'-GAAGAG-3' from cleavage with the cognate restriction endonuclease BcoKI. It is shown that M.BcoKIB is an N6-adenine specific methylase and M.BcoKIA is an N4-cytosine specific methylase. According to bisulfite mapping, M.BcoKIA methylates the first cytosine in the sequence 5'-CTCTTC-3'.
The strain Bacillus coagulans K contains two DNA-methyltransferases, M.BcoKIA and M.BcoKIB, which recognize the sequence 5 -CTCTTC-3 /5 -GAAGAG-3 and possess N4-methylcytosine and N6-methyladenine specificities, respectively. A special construct containing the recognition site of BcoKI and sites of four IIS restriction endonucleases (IIS restriction endonuclease cassette) was designed to locate the nucleotides modified by the methylases. The modified bases were determined as: 5 -m(4)CTCTTC-3 /5 -GAAGAm(6)G-3 .
The site-specific endonuclease BspLU4I was discovered in the thermophilic Bacillus species LU4 strain and purified to functionally pure state by chromatography on blue agarose, hydroxyapatite HTP, and heparin-Sepharose columns. Analysis of cleavage patterns of different DNAs with known nucleotide sequences demonstrated that the enzyme recognizes the CPyCGPuG site on the DNA. Cleavage points in the sequence were determined with the elongated primer method. It was shown that the endonuclease is an isoschizomer of AvaI. The final yield of the enzyme is 2.25.10(6) units per g wet biomass.
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