Abstract
Subunit a of the E. coli F1F0 ATP synthase was probed by insertion scanning mutagenesis in a region between residues Glu219 and His245. A series of single amino acid insertions, of both alanine and aspartic acid, were constructed after the following residues: 225, 229, 233, 238, 243, and 245. The mutants were tested for growth yield, binding of F1 to membranes, dicyclohexylcarbodiimide sensitivity of ATPase activity, ATP-driven proton translocation, and passive proton permeability of membranes stripped of F1. Significant loss of function was seen only with insertions after positions 238 and 243. In contrast, both insertions after residue 225 and the alanine insertion after residue 245 were nearly identical in function to the wild type. The other insertions showed an intermediate loss of function. Missense mutations of His245 to serine and cysteine were nonfunctional, while the W241C mutant showed nearly normal ATPase function. Replacement of Leu162 by histidine failed to suppress the 245 mutants, but chemical rescue of H245S was partially successful using acetate. An interaction between Trp241 and His245 may be involved in gating a "half-channel" from the periplasmic surface of F0 to Asp61 of subunit a.
Highlights
The pathway of protons through F0 is thought to involve subunits a and c
All subunits of the E. coli F1F0 ATP synthase are essential for ATP synthesis
Subunit a has been implicated in proton translocation through F0, but its precise role remains largely unknown
Summary
The pathway of protons through F0 is thought to involve subunits a and c. Alanine insertions after residues 212, 217, and 222 were highly disruptive of function, consistent with the importance of this region in proton translocation. The results indicate a single region of disruption, between residues 238 and 245, but insertions after 245 have little effect.
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