Second-site suppressor mutations at glycine 218 and histidine 245 in the alpha subunit of F1F0 ATP synthase in Escherichia coli.

P E Hartzog,B D Cain

doi:10.1016/s0021-9258(18)31637-5

Abstract

The alpha-like subunits of F1F0 ATP synthases share primary structural homology in two segments near their carboxyl termini. However, the amino acids at the functionally important positions occupied by alpha Gly-218 and alpha His-245 in Escherichia coli vary depending upon organism and organelle. The alpha G218-->D,H245-G and alpha G218-->K,H245-->G double mutations were constructed in the E. coli uncB(alpha) gene to model the chloroplast ATPase IV subunit and alkaliphilic bacterial alpha subunit, respectively. Strains carrying each of the single mutations, alpha G218-->D, alpha G218-->K, and alpha H245-->G, had marked reductions in F1F0 ATP synthase function. The alpha G218-->K mutation was alone sufficient to virtually eliminate enzyme function. Membranes prepared from the alpha G218-->D mutant exhibited increased levels of ATP hydrolysis activity without a corresponding increase in active proton transport, suggesting a mechanistic uncoupling of catalytic activity and proton translocation. However, much of the lost F1F0 ATP synthase activity was restored in the alpha G218-->D,H245-->G and alpha G218-->K,H245-->G double mutant strains demonstrating that these mutations act as mutual intragenic second-site suppressors. The evidence is consistent with a close spatial interaction between alpha Gly-218 and alpha His-245.

Highlights

The d i k e subunits of FIFoATP synthases share pri- If two or more sites ainprotein participate ina functionally mary structural homology in two segments near their important interaction, the deleterious effects of a mutacarboxyl termini
The ideathat these amino acids participated ain functional interaction was supported by the observation that the double mutant aE219+H,H2m4o5d+eElin, g the mitochondrial creased levels of ATP hydrolysis activity withouta arrangement had significantly moFr,eF, ATP synthase activity corresponding increasein active proton transport, sug- than strains carrying eitherof the single mutations [7]
The mutations were modeled after and uG218-K,H245-G double mutant strains demonstrating the primary structures of chloroplast CFJV subunits andBathat these mutations act as mutual intragenic second- cillus firmus OF4a subunit

Summary

Introduction

The d i k e subunits of FIFoATP synthases share pri- If two or more sites ainprotein participate ina functionally mary structural homology in two segments near their important interaction, the deleterious effects of a mutacarboxyl termini. Single mutation strains possessed site suppressors.The evidence is consistent with aclose marked reductions in F,F, ATP synthase function, and in the spatial interaction betweenuGlY-218and uAis"5.

Results

Conclusion