In previous studies, the replacement of His35 in the pore-forming protein alpha-hemolysin (alpha HL) with Leu, Ile, Pro, Arg, Ser, Thr or Cys yielded inactive polypeptides. Here, we show that modification of the inactive single-cysteine mutant alpha HL-H35C with iodoacetamide, to form H35CamC, generates significant pore-forming activity. The closely related polypeptides H35N and H35Q have, respectively, essentially no activity and greatly reduced activity. The modified residue in H35CamC, S-carboxamidomethyl-cysteine, mimicks histidine in volume, polarity and hydrogen bonding potential, but is unable to ionize. Unmodified H35C is defective in the final step of pore formation: the conversion of an inactive heptameric membrane-bound assembly intermediate to a structure containing open channels. It is this step in assembly that is ameliorated in H35CamC.
Animals
,Bacterial Toxins
,Cysteine
,Electrophoresis, Polyacrylamide Gel
,Erythrocytes
,Hemolysin Proteins
,Histidine
,Iodoacetamide
,Mutagenesis, Site-Directed
,Point Mutation
,Porins
,Protein Engineering
,Rabbits
,Staphylococcus
,Temperature
