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Accommodating discontinuities in dimeric left-handed coiled coils in ATP synthase external stalks.


ABSTRACT: ATP synthases from coupling membranes are complex rotary motors that convert the energy of proton gradients across coupling membranes into the chemical potential of the beta-gamma anhydride bond of ATP. Proton movement within the ring of c subunits localized in the F(0)-sector drives gamma and epsilon rotation within the F(1)alpha(3)beta(3) catalytic core where substrates are bound and products are released. An external stalk composed of homodimeric subunits b(2) in Escherichia coli or heterodimeric bb' in photosynthetic synthases connects F(0) subunit a with F(1) subunits delta and most likely alpha. The external stalk resists rotation, and is of interest both functionally and structurally. Hypotheses that the external stalk contributes to the overall efficiency of the reaction through elastic coupling of rotational substeps, and that stalks form staggered, right-handed coiled coils, are investigated here. We report on different structures that accommodate heptad discontinuities with either local or global underwinding. Analyses of the knob-and-hole packing of the E. coli b(2) and Synechocystis bb' stalks strongly support the possibility that these proteins can adopt conventional left-handed coiled coils.

SUBMITTER: Wise JG 

PROVIDER: S-EPMC2711272 | biostudies-literature | 2009 Apr

REPOSITORIES: biostudies-literature

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Accommodating discontinuities in dimeric left-handed coiled coils in ATP synthase external stalks.

Wise John G JG   Vogel Pia D PD  

Biophysical journal 20090401 7


ATP synthases from coupling membranes are complex rotary motors that convert the energy of proton gradients across coupling membranes into the chemical potential of the beta-gamma anhydride bond of ATP. Proton movement within the ring of c subunits localized in the F(0)-sector drives gamma and epsilon rotation within the F(1)alpha(3)beta(3) catalytic core where substrates are bound and products are released. An external stalk composed of homodimeric subunits b(2) in Escherichia coli or heterodim  ...[more]

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