Gene/Protein
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Enzyme
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:2.1.1.37 (
DNA methyltransferase
)
4,983
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two
modification methylase
genes of Bacillus subtilis R were cloned in Escherichia coli by using a selection procedure which is based on the expression of these genes. Both genes code for DNA-methyltransferases which render the DNA of the cloning host E. coli HB101 insensitive to the BspRI (5'-GGCC) endonuclease of Bacillus sphaericus R. One of the cloned genes is part of the restriction-modification (RM) system BsuRI of B. subtilis R with specificity for 5'-GGCC. The other one is associated with the lysogenizing phage SP beta B and produces the methylase M.BsuP beta BI with specificity for 5'-GGCC. The fragment carrying the SP beta B-derived gene also directs the synthesis in E. coli of a third methylase activity (M.BsuP beta
BII
), which protects the host DNA against HpaII and MspI cleavage within the sequence 5'-CCGG. Indirect evidence suggests that the two SP beta B modification activities are encoded by the same gene. No cross-hybridization was detected either between the M.BsuRI and M.BsuP beta B genes or between these and the
modification methylase
gene of B. sphaericus R, which codes for the enzyme M.BspRI with 5'-GGCC specificity.
...
PMID:Molecular cloning and expression in Escherichia coli of two modification methylase genes of Bacillus subtilis. 630 41
MD simulations have been carried out to understand the dynamical behavior of the DNA substrate of the Thermus aquaticus
DNA methyltransferase
(M.TaqI) in the methylation process at N6 of adenine. As starting structures, an x-ray structure of M.TaqI in complex with DNA and cofactor analogue (PDB code: 1G 38) and free decamer d(GTTCGATGTC)(2) were taken. The x-ray structure shows two consecutive
BII
substates that are not observed in the free decamer. These consecutive
BII
substates are also observed during our simulation. Additionally, their facing backbones adopt the same conformations. These double facing
BII
substates are stable during the last 9 ns of the trajectories and result in a stretched DNA structure. On the other hand, protein-DNA contacts on 5' and 3' phosphodiester groups of the partner thymine of flipped adenine have changed. The sugar and phosphate parts of thymine have moved further into the empty space left by the flipping base without the influence of protein. Furthermore, readily high populated
BII
substates at the GpA step of palindromic tetrad TCGA rather than CpG step are observed in the free decamer. On the contrary, the BI substate at the GpA step is observed on the flipped adenine strand. A restrained MD simulation, reproducing the BI/
BII
pattern in the complex, demonstrated the influence of the unusual backbone conformation on the dynamical behavior of the target base. This finding along with the increased nearby interstrand phosphate distance is supportive to the N6-methylation mechanism.
...
PMID:M.TaqI facilitates the base flipping via an unusual DNA backbone conformation. 1604 60
