Interaction between γC87 and γR242 residues participates in energy coupling between catalysis and proton translocation in Escherichia coli ATP synthase

Yunxiang Li, Xinyou Ma, Joachim Weber

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

Functioning as a nanomotor, ATP synthase plays a vital role in the cellular energy metabolism. Interactions at the rotor and stator interface are critical to the energy transmission in ATP synthase. From mutational studies, we found that the γC87K mutation impairs energy coupling between proton translocation and nucleotide synthesis/hydrolysis. An additional glutamine mutation at γR242 (γR242Q) can restore efficient energy coupling to the γC87K mutant. Arrhenius plots and molecular dynamics simulations suggest that an extra hydrogen bond could form between the side chains of γC87K and βTPE381 in the γC87K mutant, thus impeding the free rotation of the rotor complex. In the enzyme with γC87K/γR242Q double mutations, the polar moiety of γR242Q side chain can form a hydrogen bond with γC87K, so that the amine group in the side chain of γC87K will not hydrogen-bond with βE381. As a conclusion, the intra-subunit interaction between positions γC87 and γR242 modulates the energy transmission in ATP synthase. This study should provide more information of residue interactions at the rotor and stator interface in order to further elucidate the energetic mechanism of ATP synthase.

Original languageEnglish
Pages (from-to)679-687
Number of pages9
JournalBiochimica et Biophysica Acta - Bioenergetics
Volume1860
Issue number8
DOIs
StatePublished - Aug 1 2019
Externally publishedYes

Funding

This work was supported in part by the Robert A. Welch Foundation (m-0200) to the department of chemistry and biochemistry, Texas Woman's University. This work was also supported in part by NIH grant GM071462 (including ARRA Administrative Supplement) to JW. This work was supported in part by the Robert A. Welch Foundation (m-0200) to the department of chemistry and biochemistry, Texas Woman's University. This work was also supported in part by NIH grant GM071462 (including ARRA Administrative Supplement) to JW.

FundersFunder number
Robert A. Welch Foundationm-0200
Texas Woman's University
Department of Chemistry and Biochemistry
National Institutes of Health
National Institute of General Medical SciencesR01GM071462
Welch Foundation
Norges Idrettshøgskole

    Keywords

    • ATP synthase
    • Energy transmission
    • Molecular dynamics
    • Mutational study
    • Residue interaction

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