Molecular architecture of the undecameric rotor of a bacterial Na+-ATP synthase
[摘要] The sodium ion-translocating F1F0 ATP synthase from the bacterium Ilyobacter tartaricus contains a remarkably stable rotor ring composed of 11 c subunits. The rotor ring was isolated, crystallised in two dimensions and analysed by electron cryo-microscopy. Here, we present an U-carbon model of the c-subunit ring. Each monomeric c subunit of 89 amino acid residues folds into a helical hairpin consisting of two membrane-spanning helices and a cytoplasmic loop. The 11 N-terminal helices are closely spaced within an inner ring surrounding a cavity of similar to17 Angstrom (1.7 nm). The tight helix packing leaves no space for side-chains and is accounted for by a highly conserved motif of four glycine residues in the inner, N-terminal helix. Each inner helix is connected by a clearly visible loop to an outer C-terminal helix. The outer helix has a kink near the position of the ion-binding site residue Glu65 in the centre of the membrane and another kink near the C terminus. Two helices from the outer ring and one from the inner ring form the ion-binding site in the middle of the membrane and a potential access channel from the binding site to the cytoplasmic surface. Three possible inter-subunit ion-bridges are likely to account for the remarkable temperature stability of I. tartaricus c-rings compared to those of other organisms. (C) 2002 Elsevier Science Ltd. All rights reserved.
[发布日期] 2002-08-09 [发布机构]
[效力级别] [学科分类]
[关键词] electron crystallography;2-D crystals;F1F0 ATP synthase;c-ring;Na+ translocation [时效性]