Kinetics and Motional Dynamics of Spin-Labeled Yeast Iso-1-cytochrome <i>c</i>:  1. Stopped-Flow Electron Paramagnetic Resonance as a Probe for Protein Folding/Unfolding of the C-Terminal Helix Spin-Labeled at Cysteine 102

Qu, Kunbin; Vaughn, Jeffrey L.; Sienkiewicz, Andrzej; Scholes, Charles P.; Fetrow, Jacquelyn S.

doi:10.1021/bi962155i

Cited by 62 publications

(80 citation statements)

References 59 publications

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“…[29][30][31] The spectra are similar to those observed earlier and interpreted as monomeric, largely unfolded aS. [24] In the presence of negatively charged SUVs, the spectra of all mutants except aS140 revealed a considerable fraction c.…”

Section: Discussionsupporting

confidence: 83%

“…A Bruker Elexsys E680 X-band spectrometer equipped with a standard rectangular microwave-cavity ER 4102 ST operating in TE 102 -mode was used. [30] Performing modulated field sweeps containing 1024 data points (sweep time 42 s) a modulation frequency of 100 kHz was used. Modulation amplitude as well as time constant (low pass filter) have been chosen such that the signal was not distorted.…”

Section: Preparation Of Vesiclesmentioning

confidence: 99%

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Spin‐Label EPR on α‐Synuclein Reveals Differences in the Membrane Binding Affinity of the Two Antiparallel Helices

et al. 2008

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The putative function of the Parkinson's disease-related protein alpha-Synuclein (alphaS) is thought to involve membrane binding. Therefore, the interaction of alphaS with membranes composed of zwitterionic (POPC) and anionic (POPG) lipids was investigated through the mobility of spin labels attached to the protein. Differently labelled variants of alphaS were produced, containing a spin label at positions 9, 18 (both helix 1), 69, 90 (both helix 2), and 140 (C terminus). Protein binding to POPC/POPG vesicles for all but alphaS140 resulted in two mobility components with correlation times of 0.5 and 3 ns, for POPG mole fractions >0.4. Monitoring these components as a function of the POPG mole fraction revealed that at low negative-charge densities helix 1 is more tightly bound than helix 2; this indicates a partially bound form of alphaS. Thus, the interaction of alphaS with membranes of low charge densities might be initiated at helix 1. The local binding information thus obtained gives a more differentiated picture of the affinity of alphaS to membranes. These findings contribute to our understanding of the details and structural consequences of alphaS-membrane interactions.

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Section: Discussionsupporting

confidence: 83%

Section: Preparation Of Vesiclesmentioning

confidence: 99%

Spin‐Label EPR on α‐Synuclein Reveals Differences in the Membrane Binding Affinity of the Two Antiparallel Helices

et al. 2008

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“…However, the unfolding process at physiological temperature may very well take much longer than the short simulation times reported here. Experimental studies [33][34][35] indicate that unfolding of ␣ helices in proteins takes much longer than the few nanoseconds of our MD simulations. Even a small 21-residue alanine-based peptide, that shows fast unfolding kinetics (at 301°K in response to a laserinduced temperature jump of 18°K which is completed within 20 ns) has an unfolding time constant of 160 Ϯ 60 ns.…”

Section: Partial Unfolding Of the ␣ Subunitmentioning

confidence: 81%

Computer simulations of the dynamics of human choriogonadotropin and its ? subunit

1999

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Human choriogonadotropin (hCG) belongs to a family of heterodimeric glycoprotein hormones involved in reproduction. Over 75 ns of molecular dynamics simulations of this heterodimer and the free subunit were performed and validated by experimental information to arrive at a qualitative dynamical description of these molecules. A number of 5-ns simulations at 400°K describe a sufficiently stable heterodimer structure, whereas the free subunit shows the experimentally observed partial unfolding. From the main collective fluctuations of the free subunit, it can be derived that residues 35-55 form a domain that is highly flexible with respect to the other domain, which contains all five disulfide bonds. The apparent loss of secondary structure in the region 33-58 may very well be induced by this. Dynamic domains can also be determined from the hCG heterodimer simulations. The most important collective mode of motion shows that the flexibility of the subunit is reduced by concerted rotation with both the long loop and the determinant loop of the subunit. The motion of the free subunit does not differ significantly from the motion it has in the hCG het-erodimer, but the amplitudes along the most important eigenvectors are larger. Proteins 1999;37:668-682.

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“…Yeast iso-1-cytochrome c spinlabeled at the naturally occurring cysteine 102 sulfur with the cysteine-specific spin-label methanethiosulfonate (MTSSL) spin-label was prepared as in Ref. (2).…”

Section: Figmentioning

confidence: 99%

“…(1). This structure, having a nearby rapid mixer and fluid flow system with low dead volume, was then applied to follow the kinetic folding/unfolding of spin-labeled yeast iso-1-cytochrome c (2). The kinetic behavior was conventionally monitored at one field position in the EPR spectrum.…”

Section: Introductionmentioning

confidence: 99%

Dielectric Resonator-Based Flow and Stopped-Flow EPR with Rapid Field Scanning: A Methodology for Increasing Kinetic Information

Sienkiewicz

Ferreira

Danner

et al. 1999

Journal of Magnetic Resonance

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Kinetics and Motional Dynamics of Spin-Labeled Yeast Iso-1-cytochrome c: 1. Stopped-Flow Electron Paramagnetic Resonance as a Probe for Protein Folding/Unfolding of the C-Terminal Helix Spin-Labeled at Cysteine 102

Cited by 62 publications

References 59 publications

Spin‐Label EPR on α‐Synuclein Reveals Differences in the Membrane Binding Affinity of the Two Antiparallel Helices

Spin‐Label EPR on α‐Synuclein Reveals Differences in the Membrane Binding Affinity of the Two Antiparallel Helices

Computer simulations of the dynamics of human choriogonadotropin and its ? subunit

Dielectric Resonator-Based Flow and Stopped-Flow EPR with Rapid Field Scanning: A Methodology for Increasing Kinetic Information

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