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1.  Cloning and analysis of the four genes coding for Bpu10I restriction-modification enzymes. 
Nucleic Acids Research  1998;26(4):1084-1091.
The Bpu 10I R-M system from Bacillus pumilus 10, which recognizes the asymmetric 5'-CCTNAGC sequence, has been cloned, sequenced and expressed in Escherichia coli . The system comprises four adjacent, similarly oriented genes encoding two m5C MTases and two subunits of Bpu 10I ENase (34.5 and 34 kDa). Both bpu10IR genes either in cis or trans are needed for the manifestation of R. Bpu 10I activity. Subunits of R. Bpu 10I, purified to apparent homogeneity, are both required for cleavage activity. This heterosubunit structure distinguishes the Bpu 10I restriction endonuclease from all other type II restriction enzymes described previously. The subunits reveal 25% amino acid identity. Significant similarity was also identified between a 43 amino acid region of R. Dde I and one of the regions of higher identity shared between the Bpu 10I subunits, a region that could possibly include the catalytic/Mg2+binding center. The similarity between Bpu 10I and Dde I MTases is not limited to the conserved motifs (CM) typical for m5C MTases. It extends into the variable region that lies between CMs VIII and IX. Duplication of a progenitor gene, encoding an enzyme recognizing a symmetric nucleotide sequence, followed by concerted divergent evolution, may provide a possible scenario leading to the emergence of the Bpu 10I ENase, which recognizes an overall asymmetric sequence and cleaves within it symmetrically.
PMCID: PMC147350  PMID: 9461472
2.  Cloning and analysis of the genes encoding the type IIS restriction-modification system HphI from Haemophilus parahaemolyticus. 
Nucleic Acids Research  1996;24(14):2760-2766.
The genomic region encoding the type IIS restriction-modification (R-M) system HphI (enzymes recognizing the asymmetric sequence 5'-GGTGA-3'/5'-TCACC-3') from Haemophilus parahaemolyticus were cloned into Escherichia coli and sequenced. Sequence analysis of the R-M HphI system revealed three adjacent genes aligned in the same orientation: a cytosine 5 methyltransferase (gene hphIMC), an adenine N6 methyltransferase (hphIMA) and the HphI restriction endonuclease (gene hphIR). Either methyltransferase is capable of protecting plasmid DNA in vivo against the action of the cognate restriction endonuclease. hphIMA methylation renders plasmid DNA resistant to R.Hindill at overlapping sites, suggesting that the adenine methyltransferase modifies the 3'-terminal A residue on the GGTGA strand. Strong homology was found between the N-terminal part of the m6A methyltransferasease and an unidentified reading frame interrupted by an incomplete gaIE gene of Neisseria meningitidis. The HphI R-M genes are flanked by a copy of a 56 bp direct nucleotide repeat on each side. Similar sequences have also been identified in the non-coding regions of H.influenzae Rd DNA. Possible involvement of the repeat sequences in the mobility of the HphI R-M system is discussed.
PMCID: PMC146015  PMID: 8759008

Results 1-2 (2)