Per A. Bullough scite author profile

Low pH induces a conformational change in the influenza virus haemagglutinin, which then mediates fusion of the viral and host cell membranes. The three-dimensional structure of a fragment of the haemagglutinin in this conformation reveals a major refolding of the secondary and tertiary structure of the molecule. The apolar fusion peptide moves at least 100 A to one tip of the molecule. At the other end a helical segment unfolds, a subdomain relocates reversing the chain direction, and part of the structure becomes disordered.

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Projection structures of three photosynthetic complexes from Rhodobacter sphaeroides : LH2 at 6 Å, LH1 and RC-LH1 at 25 Å 1 1Edited by K. Nagai

Walz

et al. 1998

Journal of Molecular Biology

273

290

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The crystal structure of the Escherichia coli AmtB–GlnK complex reveals how GlnK regulates the ammonia channel

Conroy

Durand

Lupo

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

167

256

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Amt proteins are ubiquitous channels for the conduction of ammonia in archaea, eubacteria, fungi, and plants. In Escherichia coli, previous studies have indicated that binding of the P II signal transduction protein GlnK to the ammonia channel AmtB regulates the channel thereby controlling ammonium influx in response to the intracellular nitrogen status. Here, we describe the crystal structure of the complex between AmtB and GlnK at a resolution of 2.5 Å. This structure of P II in a complex with one of its targets reveals physiologically relevant conformations of both AmtB and GlnK. GlnK interacts with AmtB almost exclusively via a long surface loop containing Y51 (T-loop), the tip of which inserts deeply into the cytoplasmic pore exit, blocking ammonia conduction. Y51 of GlnK is also buried in the pore exit, explaining why uridylylation of this residue prevents complex formation.regulation ͉ x-ray structure ͉ PII protein

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The architecture of the Gram-positive bacterial cell wall

Pasquina-Lemonche

Burns

Turner

et al. 2020

Nature

263

240

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The 8.5Å Projection Structure of the Core RC–LH1–PufX Dimer of Rhodobacter sphaeroides

Qian

Hunter

Bullough

2005

Journal of Molecular Biology

160

225

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Molecular architecture of photosynthetic membranes in Rhodobacter sphaeroides: the role of PufX

Siebert

Qian

Fotiadis

et al. 2004

EMBO J

158

207

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The effects of the PufX polypeptide on membrane architecture were investigated by comparing the composition and structures of photosynthetic membranes from PufX þ and PufX À strains of Rhodobacter sphaeroides. We show that this single polypeptide profoundly affects membrane morphology, leading to highly elongated cells containing extended tubular membranes. Purified tubular membranes contain helical arrays composed solely of dimeric RC-LH1-PufX (RC, reaction centre; LH, light harvesting) complexes with apparently open LH1 rings. PufX À cells contain crystalline membranes with a pseudo-hexagonal packing of monomeric core complexes. Analysis of purified complexes by electron microscopy and atomic force microscopy shows that LH1 and PufX form a continuous ring of protein around each RC. A model of the tubular membrane is presented with PufX located adjacent to the stained region created by a vacant LH1b. This arrangement, coupled with a flexible ring, would give the RC Q B site transient access to the interstices in the lattice, which might be of functional importance. We discuss the implications of our data for the export of quinol from the RC, for eventual reduction of the cytochrome bc 1 complex.

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Three-Dimensional Structure of the Rhodobacter sphaeroides RC-LH1-PufX Complex: Dimerization and Quinone Channels Promoted by PufX

et al. 2013

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Reaction center-light harvesting 1 (RC-LH1) complexes are the fundamental units of bacterial photosynthesis, which use solar energy to power the reduction of quinone to quinol prior to the formation of the proton gradient that drives ATP synthesis. The dimeric RC-LH1-PufX complex of Rhodobacter sphaeroides is composed of 64 polypeptides and 128 cofactors, including 56 LH1 bacteriochlorophyll a (BChl a) molecules that surround and donate energy to the two RCs. The 3D structure was determined to 8 Å by X-ray crystallography, and a model was built with constraints provided by electron microscopy (EM), nuclear magnetic resonance (NMR), mass spectrometry (MS), and site-directed mutagenesis. Each half of the dimer complex consists of a RC surrounded by an array of 14 LH1 αβ subunits, with two BChls sandwiched between each αβ pair of transmembrane helices. The N- and C-terminal extrinsic domains of PufX promote dimerization by interacting with the corresponding domains of an LH1 β polypeptide from the other half of the RC-LH1-PufX complex. Close contacts between PufX, an LH1 αβ subunit, and the cytoplasmic domain of the RC-H subunit prevent the LH1 complex from encircling the RC and create a channel connecting the RC QB site to an opening in the LH1 ring, allowing Q/QH₂ exchange with the external quinone pool. We also identified a channel that connects the two halves of the dimer, potentially forming a long-range pathway for quinone migration along rows of RC-LH1-PufX complexes in the membrane. The structure of the RC-LH1-PufX complex explains the crucial role played by PufX in dimer formation, and it shows how quinone traffic traverses the LH1 complex as it shuttles between the RC and the cytochrome bc₁ complex.

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Protein conformational changes in the bacteriorhodopsin photocycle 1 1Edited by B. Honig

Subramaniam¹,

Lindahl²,

Bullough³

et al. 1999

Journal of Molecular Biology

239

171

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Per A. Bullough

Structure of influenza haemagglutinin at the pH of membrane fusion

Projection structures of three photosynthetic complexes from Rhodobacter sphaeroides : LH2 at 6 Å, LH1 and RC-LH1 at 25 Å 1 1Edited by K. Nagai

The crystal structure of the Escherichia coli AmtB–GlnK complex reveals how GlnK regulates the ammonia channel

The architecture of the Gram-positive bacterial cell wall

The 8.5Å Projection Structure of the Core RC–LH1–PufX Dimer of Rhodobacter sphaeroides

Molecular architecture of photosynthetic membranes in Rhodobacter sphaeroides: the role of PufX

Three-Dimensional Structure of the Rhodobacter sphaeroides RC-LH1-PufX Complex: Dimerization and Quinone Channels Promoted by PufX

Protein conformational changes in the bacteriorhodopsin photocycle 1 1Edited by B. Honig

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