Donald O. Nwankwo

Cloning, analysis and expression of the HindIII R-M-encoding genes.

The genes encoding the HindIII restriction endonuclease (R.HindIII ENase) and methyltransferase (M.HindIII MTase) from Haemophilus influenzae Rd were cloned and expressed in Escherichia coli and their nucleotide (nt) sequences were determined. The genes are transcribed in the same orientation, with the ENase-encoding gene (hindIIIR) preceding the MTase-encoding gene (hindIIIM). The two genes overlap by several nt. The ENase is predicted to be 300 amino acids (aa) in length (34,950 Da); the MTase is predicted to be 309 aa (35,550 Da). The HindIII ENase and MTase activities increased approx. 20-fold when the genes were brought under the control of an inducible lambda pL promoter. Highly purified HindIII ENase and MTase proteins were prepared and their N-terminal aa sequences determined. In H. influenzae Rd, the HindIII R-M genes are located between the holC and valS genes; they are not closely linked to the HindII R-M genes.

Cloning of two type II methylase genes that recognise asymmetric nucleotide sequences: FokI and HgaI.

SummaryThe modification genes of Flavobacterium okeanokoites and Haemophilus galinarum have been cloned into the vector pBR322 and expressed in Escherichia coli cells. FokI methylase gene is contained on a 3.80 kb piece of F. okeanokoites DNA. Plasmid constructs carrying this fragment of DNA are resistant to digestion by FokI restriction endonuclease but are sensitive to cleavage by HindIII, EcoRI and PstI. Unmodified λ DNA molecules, exposed in vitro to cell extracts prepared from cells habouring this plasmid, became resistant to digestion by FokI.The smallest HgaI methylase clone carries the pBR322 plasmid containing a 3.50 kb piece of H. galinarum DNA. This plasmid is resistant to digestion by HgaI.Neither the FokI nor the HgaI restriction endonuclease was detected in either clone. This is the first report of cloning modification genes whose protein products recognise asymmetric nucleotide sequences.

Cloning and expression of the MspI restriction and modification genes

The genes for the MspI restriction (R) and modification enzymes (recognition sequence CCGG) have been cloned into Escherichia coli using the vector pBR322. Clones carrying both genes have been isolated from libraries prepared with EcoRI, HindIII and BamHI. The smallest fragment that encodes both activities is a 3.6-kb HindIII fragment. Plasmids purified from the clones are fully resistant to digestion by MspI, indicating that the modification gene is functional in E. coli. The clones remain sensitive to phage infection, however, indicating that the endonuclease is dysfunctional. When the R gene is brought under the control of the inducible leftward promoter from phage lambda, the level of endonuclease increases and the level of methylase decreases, suggesting that the genes are transcribed in opposite directions.

Cloning and characterization of the BamHI restriction modification system

The BamHI system has been cloned into Escherichia coli in two steps. First the bamHIM gene was cloned by selecting for its expression, a second gene was also cloned whose product modifies the same sequence

The XmnI restriction-modification system: Cloning, expression, sequence organization and similarity between the R and M genes

The xmnIRM genes from Xanthomonas manihotis 7AS1 have been cloned and expressed in Escherichia coli. The nucleotide (nt) sequences of both genes were determined. The XmnI methyltransferase (MTase)-encoding gene is 1861 bp in length and codes for 620 amino acids (aa) (68660 Da). The restriction endonuclease (ENase)-encoding gene is 959 bp long and therefore codes for a 319-aa protein (35275 Da). The two genes are aligned tail to tail and they overlap at their respective stop codons About 4 x 10(4) units/g wet cell paste of R.XmnI was obtained following IPTG induction in a suitable E. coli host. The xmnIR gene is expressed from the T7 promoter. M.XmnI probably modifies the first A in the sequence, GAA(N)4TTC. The xmnIR and M genes contain regions of conserved similarity and probably evolved from a common ancestor. M.XmnI is loosely related to M.EcoRI. The XmnI R-M system and the type-I R-M systems probably derived from a common ancestor.

Cloning and expression of AatII restriction-modification system in Escherichia coli.

The genes encoding the AatII restriction endonuclease and methylase from Acetobacter aceti have been cloned and expressed in Escherichia coli. The nucleotide sequences of aatIIM and aatIIR genes were determined. The aatIIM and aatIIR genes are 996 bp and 1038 bp, respectively, encoding the 331-aa methylase with a predicted molecular mass of 36.9 kDa, and the 345-aa AatII restriction endonuclease with a predicted molecular mass of 38.9 kDa. The two genes overlap by 4 base pairs and are transcribed in the same orientation. The aatIIRM genes are located next to a putative gene for plasmid mobilization. A stable overproducing strain was constructed, in which the aatIIM gene was expressed from a pSC101-derived plasmid. The aatIIR gene was inserted into a modified T7 expression vector that carries transcription terminators upstream from the T7 promoter. The recombinant AatII restriction endonuclease was purified to near homogeneity by chromatography through DEAE Sepharose, Heparin Sepharose, and phosphocellulose columns.