The fourth DNA-methyltransferase of the BstF5I restriction-modification (RM) system from Bacillus stearothermophilus F5 (M.BstF5I-4) was discovered, which modifies the adenine residue within the upper strand of the recognition site 5'-GGATG-3'/5'-CATCC-3'. Thus, unlike other known RM systems, the BstF5I RM system comprises four genes encoding DNA-methyltransferases, three of which possess the same substrate specificity and methylate adenine within the 5'-GGATG sequence. The English version of the paper.
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Substrate specificity and biochemical properties of M3.BstF5I DNA methyltransferase from the BstF5I restriction-modification system.
Biochemistry (Mosc)
January 2010
Sibenzyme Ltd., Novosibirsk, 630117, Russia.
Optimal conditions for DNA methylation by the M3.BstF5I enzyme from Bacillus stearothermophilus and kinetic parameters of lambda phage DNA modification and that of a number of oligonucleotide substrates are established. Comparison of M1.
View Article and Find Full Text PDFGenes encoding DNA-methyltransferases which recognize the same sequence 5'-GCATC-3' from SfaNI and Bst19I restriction-modification systems have been cloned and primary structures of these have been determined. It has been revealed that restriction-modification system Bst19I contains two DNA-methyltransferases M1.Bst19I and M2.
View Article and Find Full Text PDFM.BstF5I-2 and M.BstF5I-4 DNA methyltransferases from BstF5I restriction-modification system of Bacillus stearothermophilus F5.
Biochemistry (Mosc)
September 2003
Institute of Molecular Biology and Biophysics, Siberian Division, Russian Academy of Medical Sciences, Novosibirsk 630117, Russia.
The BstF5I restriction-modification system from Bacillus stearothermophilus F5 includes four site-specific DNA methyltransferases, thus differing from all known restriction-modification systems. Here we demonstrated for the first time that one bacterial cell can possess two pairs of methylases with identical substrate specificities (methylases BstF5I-1 and BstF5I-3 recognize GGATG, whereas methylases BstF5I-2 and BstF5I-4 recognize CATCC) that modify adenine residues on both DNA strands. Different chromatographic methods provide homogenous preparations of methylases BstF5I-2 and BstF5I-4.
View Article and Find Full Text PDFThe fourth DNA-methyltransferase of the BstF5I restriction-modification (RM) system from Bacillus stearothermophilus F5 (M.BstF5I-4) was discovered, which modifies the adenine residue within the upper strand of the recognition site 5'-GGATG-3'/5'-CATCC-3'. Thus, unlike other known RM systems, the BstF5I RM system comprises four genes encoding DNA-methyltransferases, three of which possess the same substrate specificity and methylate adenine within the 5'-GGATG sequence.
View Article and Find Full Text PDF[Comparative study of the M.Bstf5I-1 and M.BstF5I-3 DNA methyltransferases from the Bacillus stearothermophilus F5 restriction-modification system].
Mol Biol (Mosk)
August 2002
State Research Center of Virology and Biotechnology, VECTOR, Kol'tsovo, 630559 Russia.
The BstF5I restriction-modification system from Bacillus stearothermophilus F5, unlike all known restriction-modification systems, contains three genes encoding DNA methyltransferases. In addition to revealing two DNA methylases responsible for modification of adenine in different DNA strands, it has been first shown that one bacterial cell has two DNA methylases, M.BstF5I-1 and M.
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