John J. Pelletier

SINGLE-COLUMN PURIFICATION OF FREE RECOMBINANT PROTEINS USING A SELF-CLEAVABLE AFFINITY TAG DERIVED FROM A PROTEIN SPLICING ELEMENT

A novel protein purification system has been developed which enables purification of free recombinant proteins in a single chromatographic step. The system utilizes a modified protein splicing element (intein) from Saccharomyces cerevisiae (Sce VMA intein) in conjunction with a chitin-binding domain (CBD) from Bacillus circulans as an affinity tag. The concept is based on the observation that the modified Sce VMA intein can be induced to undergo a self-cleavage reaction at its N-terminal peptide linkage by 1,4-dithiothreitol (DTT), beta-mercaptoethanol (beta-ME) or cysteine at low temperatures and over a broad pH range. A target protein is cloned in-frame with the N-terminus of the intein-CBD fusion, and the stable fusion protein is purified by adsorption onto a chitin column. The immobilized fusion protein is then induced to undergo self-cleavage under mild conditions, resulting in the release of the target protein while the intein-CBD fusion remains bound to the column. No exogenous proteolytic cleavage is needed. Furthermore, using this procedure, the purified free target protein can be specifically labeled at its C-terminus.

Restriction Enzyme BsoBI-DNA Complex: A Tunnel for Recognition of Degenerate DNA Sequences and Potential Histidine Catalysis

BACKGROUND Restriction endonucleases form a diverse family of proteins with substantial variation in sequence, structure, and interaction with recognition site DNA. BsoBI is a thermophilic restriction endonuclease that exhibits both base-specific and degenerate recognition within the sequence CPyCGPuG. RESULTS The structure of BsoBI complexed to cognate DNA has been determined to 1.7 A resolution, revealing several unprecedented features. Each BsoBI monomer is formed by inserting a helical domain into an expanded EcoRI-type catalytic domain. DNA is completely encircled by a BsoBI dimer. Recognition sequence DNA lies within a 20 A long tunnel of protein that excludes bulk solvent. Interactions with the specific bases are made in both grooves through direct and water-mediated hydrogen bonding. Interaction with the degenerate position is mediated by a purine-specific hydrogen bond to N7, ensuring specificity, and water-mediated H bonding to the purine N6/O6 and pyrimidine N4/O4, allowing degeneracy. In addition to the conserved active site residues of the DX(n)(E/D)ZK restriction enzyme motif, His253 is positioned to act as a general base. CONCLUSIONS A catalytic mechanism employing His253 and two metal ions is proposed. If confirmed, this would be the first example of histidine-mediated catalysis in a restriction endonuclease. The structure also provides two novel examples of the role of water in protein-DNA interaction. Degenerate recognition may be mediated by employing water as a hydrogen bond donor or acceptor. The structure of DNA in the tunnel may also be influenced by the absence of bulk solvent.

Cloning and sequence comparison ofAvaI andBsoBI restriction-modification systems

AvaI andBsoBI restriction endonucleases are isoschizomers which recognize the symmetric sequence 5′CYCGRG3′ and cleave between the first C and second Y to generate a four-base 5′ extension. TheAvaI restriction endonuclease gene (avaIR) and methylase gene (avaIM) were cloned intoEscherichia coli by the methylase selection method. TheBsoBI restriction endonuclease gene (bsoBIR) and part of theBsoBI methylase gene (bsoBIM) were cloned by the “endo-blue” method (SOS induction assay), and the remainder ofbsoBIM was cloned by inverse PCR. The nucleotide sequences of the two restriction-modification (RM) systems were determined. Comparisons of the predicted amino acid sequences indicated thatAvaI andBsoBI endonucleases share 55% identity, whereas the two methylases share 41% identity. Although the two systems show similarity in protein sequence, their gene organization differs. TheavaIM gene precedesavaIR in theAvaI RM system, while thebsoBIR gene is located upstream ofbsoBIM in theBsoBI RM system. BothAvaI andBsoBI methylases contain motifs conserved among the N4 cytosine methylases.