Structural Origins of Nitroxide Side Chain Dynamics on Membrane Protein α-Helical Sites,

Kroncke, Brett M.; Horanyi, P.S.; Columbus, Linda

doi:10.1021/bi101148w

Cited by 66 publications

(69 citation statements)

References 60 publications

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“…3b) is found for site 81, which is buried deepest in the bilayer. This is consistent with the finding the R1 side chain for hydrocarbon-exposed labels has a strong tendency to interact with the protein surface (38,39).…”

Section: Reconstitution and Vesicle Capture By Synaptotagmin 1-supporting

confidence: 91%

The Juxtamembrane Linker of Full-length Synaptotagmin 1 Controls Oligomerization and Calcium-dependent Membrane Binding

Lü

Kiessling

Tamm

et al. 2014

Journal of Biological Chemistry

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Background: Synaptotagmin 1 is the Ca 2ϩ sensor for neuronal exocytosis. Results: The juxtamembrane linker of synaptotagmin 1 is oligomerized through a glycine zipper motif, and this interaction controls the activity of synaptotagmin 1. Conclusion: Structural modifications in the linker alter the activity of synaptotagmin 1. Significance: The oligomerization of synaptotagmin 1 may control the organization at the focal site of fusion.

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Section: Reconstitution and Vesicle Capture By Synaptotagmin 1-supporting

confidence: 91%

The Juxtamembrane Linker of Full-length Synaptotagmin 1 Controls Oligomerization and Calcium-dependent Membrane Binding

Lü

Kiessling

Tamm

et al. 2014

Journal of Biological Chemistry

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“…Notably, all six probes caused modest line-broadening in residues within the ligand binding pockets of the N2 and N3 NEAT domains. These interactions were deemed to be non-specific because both binding pockets contain a large number of aromatic residues that are expected to non-specifically interact with MTSL 66,74 . In addition, the interactions are incompatible with all of the other PRE-derived distance restraints and SAXS data.…”

Section: Methodsmentioning

confidence: 99%

The PRE-Derived NMR Model of the 38.8-kDa Tri-Domain IsdH Protein from Staphylococcus aureus Suggests That It Adaptively Recognizes Human Hemoglobin

Sjodt

Macdonald

Spirig

et al. 2016

Journal of Molecular Biology

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Staphylococcus aureus is a medically important bacterial pathogen that during infections acquires iron from human hemoglobin (Hb). It uses two closely related iron regulated surface determinant (Isd) proteins to capture and extract the oxidized form of heme (hemin) from Hb, IsdH and IsdB. Both receptors rapidly extract hemin using a conserved tri-domain unit consisting of two NEAr iron Transporter (NEAT) domains connected by a helical linker domain. To gain insight into the mechanism of extraction we used NMR to investigate the structure and dynamics of the 38.8 kDa tri-domain IsdH protein (IsdHN2N3, A326-D660 with a Y642A mutation that prevents hemin binding). The structure was modeled using long-range paramagnetic relaxation enhancement (PRE) distance restraints, dihedral angle, small angle x-ray scattering, residual dipolar coupling and inter-domain NOE data. The receptor adopts an extended conformation wherein the linker and N3 domains pack against each other via a hydrophobic interface. In contrast, the N2 domain contacts the linker domain via a hydrophilic interface, and based on NMR relaxation data undergoes inter-domain motions enabling it to reorient with respect to the body of the protein. Ensemble calculations were used to estimate the range of N2 domain positions compatible with the PRE data. A comparison of the Hb-free and -bound forms reveals that Hb binding alters the positioning of the N2 domain. We propose that binding occurs through a combination of conformational selection and induced fit mechanisms that may promote hemin release from Hb by altering the position of its F-helix.

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“…As the temporal resolution of MD simulations corresponds to those of EPR spectroscopy, they can provide a complementary means of examining both the motion and local environment of the paramagnetic probe [41][42][43][44]. MD simulations are increasingly used to aid in the interpretation and analysis of EPR data, as it enables the de-convolution of probe motion from the underlying motion of the protein [41][42][43][44][45][46][47][48]. It is important to note that the comparison between spin mobility form MD simulations and the line shapes from the cw EPR spectra were compared on a qualitative basis.…”

Section: Mobility Of Spin-labels From MD Simulationsmentioning

confidence: 99%

Characterizing the conformational dynamics of metal-free PsaA using molecular dynamics simulations and electron paramagnetic resonance spectroscopy

Deplazes

Begg

Wonderen

et al. 2015

Biophysical Chemistry

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After the embargo period via non-commercial hosting platforms such as their institutional repository  via commercial sites with which Elsevier has an agreement In all cases accepted manuscripts should: link to the formal publication via its DOI  bear a CC-BY-NC-ND license -this is easy to do, click here to find out how  if aggregated with other manuscripts, for example in a repository or other site, be shared in alignment with our hosting policy  not be added to or enhanced in any way to appear more like, or to substitute for, the published journal article unknown. Here, we use continuous wave electron paramagnetic resonance (EPR) spectroscopy and molecular dynamics (MD) simulations to study the relative flexibility of the structural domains in metal-free PsaA and its distribution of conformations in solution. The results show that the crystal structure of the metal-free PsaA is a good representation of the dominant conformation in solution, but the protein also samples structurally distinct conformations that are not captured by the crystal structure. Further, these results suggest that the metal binding site is larger and more solvent exposed than indicated by the metal-free crystal structure. Collectively, this study provides atomicresolution insight into the conformational dynamics of PsaA prior to metal binding and lays the groundwork for future EPR and MD based studies of PsaA in solution. 4 GRAPHICAL ABSTRACT HIGHLIGHTS• PsaA is the Mn 2+ -recruiting protein of the human pathogen Streptococcus pneumoniae• Metal-free PsA samples structurally distinct conformations not captured by the crystal structure• The metal binding site is larger and more solvent exposed than indicated by the crystal structure KEYWORDSCluster A-I solute-binding protein (SBP); Streptococcus pneumoniae; PsaA; molecular dynamics simulations, electron paramagnetic resonance (EPR) spectroscopy; protein flexibility; spin-label mobility 5

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Structural Origins of Nitroxide Side Chain Dynamics on Membrane Protein α-Helical Sites,

Cited by 66 publications

References 60 publications

The Juxtamembrane Linker of Full-length Synaptotagmin 1 Controls Oligomerization and Calcium-dependent Membrane Binding

The Juxtamembrane Linker of Full-length Synaptotagmin 1 Controls Oligomerization and Calcium-dependent Membrane Binding

The PRE-Derived NMR Model of the 38.8-kDa Tri-Domain IsdH Protein from Staphylococcus aureus Suggests That It Adaptively Recognizes Human Hemoglobin

Characterizing the conformational dynamics of metal-free PsaA using molecular dynamics simulations and electron paramagnetic resonance spectroscopy

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