Alec D. Tucker scite author profile

We find that the CPG2 catalytic domain has structural homology with other zinc-dependent exopeptidases, both those with a single zinc ion and those with a pair of zinc ions in the active site. The closest structural homology is with the aminopeptidase from Aeromonas proteolytica, where the similarity includes superposable zinc ligands but does not extend to the rest of the active-site residues, consistent with the different substrate specificities. The mechanism of peptide cleavage is likely to be very similar in these two enzymes and may involve the bridging hydroxyl ion ligand acting as a primary nucleophile.

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Structure of the membrane-pore-forming fragment of colicin A

Parker¹,

Pattus²,

Tucker³

et al. 1989

Nature

320

210

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Colicins are antibiotic proteins produced by and active against sensitive Escherichia coli and closely related bacteria. They can adsorb to specific receptors located at the external surface of the outer membrane of sensitive cells, and are then translocated to their specific targets within these cells. The largest group of colicins comprises those which can form voltage-dependent channels in membranes, thereby destroying the cell's energy potential. Colicin molecules are organized in structural domains, each domain carrying one function associated with the toxin's lethal activity. The pore-forming activity seems to be located at the carboxyl terminus. A thermolytic fragment comprising amino acids 389-592 from colicin A has pore-forming properties very similar to those of the entire molecule. This fragment is soluble in aqueous medium and spontaneously inserts into lipid bilayers. We have determined the structure of the pore-forming fragment of colicin A by X-ray crystallography and refinement at 2.5 A resolution. The protein consists of ten alpha-helices organized in a three-layer structure. Two of the helices are completely buried within the structure and form a hydrophobic hairpin loop similar to that proposed for signal sequences which function in translocation. We present a model for insertion of the protein into lipid bilayers the features of which may be applicable in other biological systems involving protein insertion or translocation across membranes.

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Refined structure of the pore-forming domain of colicin A at 2.4 Å resolution

Parker¹,

Postma²,

Pattus³

et al. 1992

Journal of Molecular Biology

205

172

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Alec D. Tucker

Structure of the Aeromonas toxin proaerolysin in its water-soluble and membrane-channel states

Crystal structure of carboxypeptidase G2, a bacterial enzyme with applications in cancer therapy

Structure of the membrane-pore-forming fragment of colicin A

Refined structure of the pore-forming domain of colicin A at 2.4 Å resolution

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