The quaternary structure of the membrane glycoproteins E1, E2 and E3 of Semliki Forest virus has been determined in intact virus and in the protein complexes obtained after Triton X100 solubilization. Intact and solubilized virus were treated with a cleavable cross-linking reagent and the covalently cross-linked glycoprotein complexes were isolated and characterized using antibodies specific for the E1 and E2 membrane glycoproteins. The isolation and characterization procedure was done in a low sodium dodecyl sulphate concentration which prevented non-covalent association between glycoprotein species, but did not abolish antigen-antibody binding.

The major glycoprotein complex seen after cross-linking of either intact or Triton X100 solubilized virus was an approximately 100,000 molecular weight species composed of E1-E2 heterodimers only. These findings show that E1 and E2 form a complex in the virus and that this complex is retained after solubilization with Triton X100. The smallest membrane glycoprotein E3 was not cross-linked to the other proteins and was therefore lost in the isolation procedure. However, the presence of E3 together with E1 and E2 in complexes obtained after Triton X100 solubilization of intact virus suggests that an E1-E2-E3 trimer is present in the virus. It is likely that this trimer forms the spike-like structures seen on the surface of the virus.

We have observed that antibody specific for one component of the virus glycoprotein complex can induce rearrangement of uncross-linked complexes in Triton X100 solubilized form. This fact should be considered when using specific antibody for characterization of protein complexes.