Biological and molecular characterization of Streptococcus crista strains isolated from human dental biofilm by means of arbitrary primers - PCR (AP-PCR)

As the sole viral antigen on the HIV-1-virion surface, trimeric Env is a focus of vaccine efforts. Here we present the structure of the ligand-free HIV-1-Env trimer, fix its conformation, and determine its receptor interactions. Epitope analyses revealed trimeric ligand-free Env to be structurally compatible with broadly neutralizing antibodies, but not poorly neutralizing ones. We coupled these compatibility considerations with binding antigenicity to engineer conformationally fixed Envs, including a 201C-433C (DS) variant, specifically recognized by broadly neutralizing antibodies. DS-Env retained nanomolar affinity for the CD4 receptor, with which it formed an asymmetric intermediate: a closed trimer bound by a single CD4 without the typical antigenic hallmarks of CD4 induction. Antigenicity-guided structural design can thus be used both to delineate mechanism and to fix conformation, with DS-Env trimers in virus-like particle and soluble formats providing a new generation of vaccine antigens.

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Single-molecule dynamics of gating in a neurotransmitter transporter homologue

Zhao

Terry

Shi

et al. 2010

Nature

239

335

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SummaryNeurotransmitter:Na+ symporters (NSS) remove neurotransmitters from the synapse in a reuptake process driven by the Na+ gradient. Drugs that interfere with this reuptake mechanism, such as cocaine and antidepressants, profoundly influence behavior and mood. In order to probe the nature of conformational changes associated with substrate binding and transport, we have developed a single-molecule fluorescence imaging assay, in combination with functional and computational studies, using the prokaryotic NSS homolog LeuT. Here we show molecular details of the modulation of intracellular gating of LeuT by substrates and inhibitors, as well as by mutations that alter binding and/or transport. Our direct observations of single-molecule transitions, reflecting structural dynamics of the intracellular region of the transporter that may be masked by ensemble averaging or suppressed under crystallographic conditions, are interpreted in the context of an allosteric mechanism coupling ion and substrate binding to transport.

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Cyanine fluorophore derivatives with enhanced photostability

et al. 2011

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Fluorescence applications requiring high photostability often depend on the use of solution additives to enhance fluorophore performance. Here we demonstrate that the direct or proximal conjugation of cyclooctatetraene (COT), 4-nitrobenzyl alcohol (NBA) or Trolox to the cyanine fluorophore Cy5 dramatically enhanced fluorophore photostability without otherwise affecting its native spectral characteristics. Such conjugation is a powerful means of improving the robustness of fluorescence-based applications demanding long-lived, nonblinking fluorescence emission.

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Substrate-modulated gating dynamics in a Na+-coupled neurotransmitter transporter homologue

Zhao

Terry

Shi

et al. 2011

Nature

268

314

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Single-molecule analysis of ligand efficacy in β2AR–G-protein activation

Gregorio

Masureel

Hilger

et al. 2017

Nature

273

287

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SUMMARY G protein-coupled receptor (GPCR)-mediated signal transduction is central to human physiology and disease intervention, yet the molecular mechanisms responsible for ligand-dependent signaling responses remain poorly understood. In Class A GPCRs, receptor activation and G protein coupling entail outward movements of transmembrane segment 6 (TM6). Using single-molecule Fluorescence Resonance Energy Transfer (smFRET) imaging, we examine TM6 motions in the β2 adrenergic receptor (β2AR) upon exposure to orthosteric ligands with different efficacies, in the absence and presence of the Gs heterotrimer. We show that partial and full agonists affect TM6 motions in a manner that differentially regulates the rate at which GDP-bound β2AR-Gs complexes are formed and the efficiency of nucleotide exchange leading to Gs activation. These data also reveal transient nucleotide-bound β2AR-Gs species distinct from known structures and single-molecule perspectives on the allosteric link between ligand and nucleotide binding pockets that shed new light on the G protein activation mechanism.

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Associating HIV-1 envelope glycoprotein structures with states on the virus observed by smFRET

Castillo-Menendez

et al. 2019

Nature

157

276

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The HIV-1 envelope glycoprotein (Env) trimer mediates cell entry and is conformationally dynamic 1 – 8 . Imaging by single-molecule fluorescence resonance energy transfer (smFRET) has revealed that, on the surface of intact virions, mature pre-fusion Env transitions from a pre-triggered conformation (state 1) through a default intermediate conformation (state 2) to a conformation in which it is bound to three CD4 receptor molecules (state 3) 8 – 10 . It is currently unclear how these states relate to known structures. Breakthroughs in the structural characterization of the HIV-1 Env trimer have previously been achieved by generating soluble and proteolytically cleaved trimers of gp140 Env that are stabilized by a disulfide bond, an isoleucine-to-proline substitution at residue 559 and a truncation at residue 664 (SOSIP.664 trimers) 5 , 11 – 18 . Cryo-electron microscopy studies have been performed with C-terminally truncated Env of the HIV-1 JR-FL strain in complex with the antibody PGT151 19 . Both approaches have revealed similar structures for Env. Although these structures have been presumed to represent the pre-triggered state 1 of HIV-1 Env, this hypothesis has never directly been tested. Here we use smFRET to compare the conformational states of Env trimers used for structural studies with native Env on intact virus. We find that the constructs upon which extant high-resolution structures are based predominantly occupy downstream conformations that represent states 2 and 3. Therefore, the structure of the pretriggered state-1 conformation of viral Env that has been identified by smFRET and that is preferentially stabilized by many broadly neutralizing antibodies—and thus of interest for the design of immunogens—remains unknown.

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Release of gp120 Restraints Leads to an Entry-Competent Intermediate State of the HIV-1 Envelope Glycoproteins

Herschhorn

et al. 2016

mBio

136

273

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Primary human immunodeficiency virus (HIV-1) envelope glycoprotein (Env) trimers [(gp120/gp41)3] typically exist in a metastable closed conformation (state 1). Binding the CD4 receptor triggers Env to undergo extensive conformational changes to mediate virus entry. We identified specific gp120 residues that restrain Env in state 1. Alteration of these restraining residues destabilized state 1, allowing Env to populate a functional conformation (state 2) intermediate between state 1 and the full CD4-bound state (state 3). Increased state 2 occupancy was associated with lower energy barriers between the states. State 2 was an obligate intermediate for all transitions between state 1 and state 3. State 2-enriched Envs required lower CD4 concentrations to trigger virus entry and more efficiently infected cells expressing low levels of CD4. These Envs were resistant to several broadly neutralizing antibodies and small-molecule inhibitors. Thus, state 2 is an Env conformation on the virus entry pathway; sampling state 2 increases the adaptability of HIV-1 to different host cell receptor levels and immune environments. Our results provide new insights into the conformational regulation of HIV-1 entry.

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Transport domain unlocking sets the uptake rate of an aspartate transporter

Akyuz

Georgieva

Zhou

et al. 2015

Nature

150

234

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Glutamate transporters terminate neurotransmission by clearing synaptically released glutamate from the extracellular space, allowing repeated rounds of signaling and preventing glutamate-mediated excitotoxicity. Crystallographic studies on an archaeal homologue, GltPh, showed that distinct transport domains translocate substrates into the cytoplasm by moving across the membrane within a central trimerization scaffold. Here, we report direct observations of these 'elevator-like' transport domain motions in the context of reconstituted proteoliposomes and physiological ion gradients using single-molecule fluorescence resonance energy transfer (smFRET) imaging. We show that GltPh bearing two “humanizing” mutations exhibits markedly increased transport domain dynamics, which parallels an increased rate of substrate transport, thereby establishing a direct temporal relationship between transport domain motions and substrate uptake. Crystallographic and computational investigations reveal that these mutations favor structurally “unlocked” states with increased solvent occupancy at the interface between the transport domain and the trimeric scaffold.

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Daniel S. Terry

Crystal structure, conformational fixation and entry-related interactions of mature ligand-free HIV-1 Env

Single-molecule dynamics of gating in a neurotransmitter transporter homologue

Cyanine fluorophore derivatives with enhanced photostability

Substrate-modulated gating dynamics in a Na+-coupled neurotransmitter transporter homologue

Single-molecule analysis of ligand efficacy in β2AR–G-protein activation

Associating HIV-1 envelope glycoprotein structures with states on the virus observed by smFRET

Release of gp120 Restraints Leads to an Entry-Competent Intermediate State of the HIV-1 Envelope Glycoproteins

Transport domain unlocking sets the uptake rate of an aspartate transporter

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