Monoclonal antibodies recognizing surface residues of the beta subunit of Escherichia coli F(1) ATPase: functional importance of the epitope residues.

Abstract

Two monoclonal antibodies, beta 208 and beta 210, against the beta subunit of the F(1) ATPase from Escherichia coli reacted with an intact beta subunit and also a peptide corresponding to a portion of beta between residues 1 and 145. Mutations at Ala-1, Val-15, Glu-16, Phe-17, Leu-29, Gly-65, or Leu-66, and His-110 or Arg-111 for beta 210 and beta 208, respectively, caused decreased antibody binding to beta, suggesting that these residues form the epitopes and are thought to lie close together on the surface of the beta subunit. The topological locations of the corresponding residues in the atomic structure of the bovine beta subunit agree well with these expectations, except for Ala-1 and Leu-29. beta 210 binds to two beta strands including the epitope residues that are 50 residues apart, indicating that this antibody recognizes the tertiary structure of the N-terminal end region. Mutations in the epitope residues of beta 210 do not affect the F(1) ATPase activity, suggesting that surfaces of the two beta strands in the amino-terminal end region are not functionally essential. To analyze the functional importance around His-110 recognized by beta 208 we introduced site specific mutations at residues His-110 and Ile-109. Ile-109 to Ala or Arg, and His-110 to Ala or Asp caused defective assembly of F(1). However, the His-110 to Arg mutation had no effect on molecular assembly, suggesting that Ile-109 and His-110, especially the positive charge of His-110 are essential for the assembly of F(1). The His-110 to Arg mutation caused a large decrease in F(1)-ATPase activity, suggesting that a subtle change in the topological arrangement of the positive charge of His-110 located on the surface of beta plays an important role in the catalytic mechanism of the F(1)-ATPase.