Changes in the capsid structure and stability of defective particles of bacteriophage R17

Abstract

Serological and chemical methods were used to compare the capsid structure and stability of R17 phage and amA31 defective particles. Immunodiffusion analysis demonstrated identity between intact R17 and amA31 capside and between dissociated subunits of both R17 and amA31 and purified coat protein. Radioimmunoassays detected an antibody in R17 antisera that binds to intact R17 but could not be absorbed from R17 antisera with amA31. The R17 antibody remaining in amA31-absorbed sera did not neutralize infectivity of R17 phage. Differences between the surface composition of R17 and amA31 capsids were also detected by iodination. Capsids of R17 bound approximately four times more 125I than amA31, which was accounted for by a decreased 125I labeling of coat protein. Finally, amA31 capsids dissociated under milder conditions of sodium dodecyl sulfate treatment than R17 capsids. The sodium dodecyl sulfate dissociation of both R17 and amA31 capsids resulted in the formation of a transient 38,000-dalton intermediate, which subsequently dissociated to coat protein monomers. Preparations of dissociated R17 capsids also contained assembly protein was also found in preparations of dissociated amA31 capsids.