Localization of epitopes of herpes simplex virus type 1 glycoprotein D.

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J Virol. 1985 February; 53(2): 634-644

Localization of epitopes of herpes simplex virus type 1 glycoprotein D.

R J Eisenberg, D Long, M Ponce de Leon, J T Matthews, P G Spear, M G Gibson, L A Lasky, P Berman, E Golub and G H Cohen

ABSTRACT

We previously defined eight groups of monoclonal antibodieswhich react with distinct epitopes of herpes simplex virus glycoproteinD (gD). One of these, group VII antibody, was shown to reactwith a type-common continuous epitope within residues 11 to19 of the mature glycoprotein (residues 36 to 44 of the predictedsequence of gD). In the current investigation, we have localizedthe sites of binding of two additional antibody groups whichrecognize continuous epitopes of gD. The use of truncated formsof gD as well as computer predictions of secondary structureand hydrophilicity were instrumental in locating these epitopesand choosing synthetic peptides to mimic their reactivity. GroupII antibodies, which are type common, react with an epitopewithin residues 268 to 287 of the mature glycoprotein (residues293 to 312 of the predicted sequence). Group V antibodies, whichare gD-1 specific, react with an epitope within residues 340to 356 of the mature protein (residues 365 to 381 of the predictedsequence). Four additional groups of monoclonal antibodies appearto react with discontinuous epitopes of gD-1, since the reactivityof these antibodies was lost when the glycoprotein was denaturedby reduction and alkylation. Truncated forms of gD were usedto localize these four epitopes to the first 260 amino acidsof the mature protein. Competition experiments were used toassess the relative positions of binding of various pairs ofmonoclonal antibodies. In several cases, when one antibody wasbound, there was no interference with the binding of an antibodyfrom another group, indicating that the epitopes were distinct.However, in other cases, there was competition, indicating thatthese epitopes might share some common amino acids.

J Virol. 1985 February; 53(2): 634-644

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