Restriction endonuclease BpuJI specific for the 5'-CCCGT sequence is related to the archaeal Holliday junction resolvase family.

Type IIS restriction endonucleases (REases) recognize asymmetric DNA sequences and cleave both DNA strands at fixed positions downstream of the recognition site. REase BpuJI recognizes the asymmetric sequence 5'-CCCGT, however it cuts at multiple sites in the vicinity of the target sequence. We show that BpuJI is a dimer, which has two DNA binding surfaces and displays optimal catalytic activity when bound to two recognition sites.

Esp1396I restriction-modification system: structural organization and mode of regulation.

Esp1396I restriction-modification (RM) system recognizes an interrupted palindromic DNA sequence 5'-CCA(N)(5)TGG-3'. The Esp1396I RM system was found to reside on pEsp1396, a 5.6 kb plasmid naturally occurring in Enterobacter sp.

Specificities of eleven different DNA methyltransferases of Helicobacter pylori strain 26695.

Methyltransferases (MTases) of procaryotes affect general cellular processes such as mismatch repair, regulation of transcription, replication, and transposition, and in some cases may be essential for viability. As components of restriction-modification systems, they contribute to bacterial genetic diversity. The genome of Helicobacter pylori strain 26695 contains 25 open reading frames encoding putative DNA MTases.

Cloning and analysis of the four genes coding for Bpu10I restriction-modification enzymes.

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).

Cloning and analysis of the genes encoding the type IIS restriction-modification system HphI from Haemophilus parahaemolyticus.

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.

Cloning and characterization of the unusual restriction-modification system comprising two restriction endonucleases and one methyltransferase.

An Escherichia coli RFL47 DNA fragment containing the Eco47IR and Eco47II restriction-modification (R-M) system has been cloned and sequenced. A clone carrying this system has been selected by its ability to restrict phage lambda in vivo. The sequence of 5360 bp was determined, and its analysis revealed three major open reading frames (ORF) corresponding to two restriction endonucleases (ENases) and one DNA methyltransferase (MTase): R.