Three-dimensional fold of the human AQP1 water channel determined at 4 Å resolution by electron crystallography of two-dimensional crystals embedded in ice

Gang Ren, Anchi Cheng, Vijay Reddy, Peter Melnyk, Alok K. Mitra

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Abstract

Here, we present a three-dimensional (3D) density map of deglycosylated, human erythrocyte aquaporin 1 (AQP1) determined at 4 Å resolution in plane and ~7 Å resolution perpendicular to the bilayer. The map was calculated by analyzing images and electron diffraction patterns recorded from tilted (up to 60°), ice-embedded, frozen-hydrated 2D crystals of AQP1 in lipid bilayer membranes. This map significantly extends the findings related to the folding of the AQP1 polypeptide chain determined by us at a lower, 7 Å by Å20 Å, resolution. The solvent-accessible volume within a monomer has a vestibular architecture, with a narrow, ~6.5 Å diameter constriction near the center of the bilayer, where the location of the water-selective channel is postulated to exist. The clearly resolved densities for the transmembrane helices display the protrusions expected for bulky side-chains. The density in the interior of the helix barrel (putative NPA box region) is better resolved compared to our previous map, suggesting clearer linkage to some of the helices, and it may harbor short stretches of α-helix. At the bilayer extremities, densities for some of the inter-helix hydrophilic loops are visible. Consistent with these observed inter-helix connections, possible models for the threading of the AQP1 polypeptide chain are presented. A preferred model is deduced that agrees with the putative locations of a group of aromatic residues in the amino acid sequence and in the 3D density map. (C) 2000 Academic Press.

Original languageEnglish (US)
Pages (from-to)369-387
Number of pages19
JournalJournal of Molecular Biology
Volume301
Issue number2
DOIs
StatePublished - Aug 11 2000
Externally publishedYes

Bibliographical note

Funding Information:
We thank R. Henderson for advice regarding processing of tilted images. We are indebted to M. Pique for generating the Figures depicting pertinent features of the 3D density map. The research was supported by a grant from the National Institutes of Health, in part by a grant from the National Science Foundation and a Grant-in-Aid from the American Heart Association and a special fellowship from the Cystic Fibrosis Research Foundation to A. K. M. G.R. was supported by a post-doctoral fellowship from the American Heart Association Western Affiliate and A.K.M. is an Established Investigator with the American Heart Association.

Keywords

  • Aquaporin
  • Electron crystallography
  • Membrane-protein structure
  • Topology
  • Two-dimensional crystal

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