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Items: 1 to 20 of 46

1.

Each rhodopsin molecule binds its own arrestin.

Hanson SM, Gurevich EV, Vishnivetskiy SA, Ahmed MR, Song X, Gurevich VV.

Proc Natl Acad Sci U S A. 2007 Feb 27;104(9):3125-8. Epub 2007 Feb 20.

2.

Light-driven translocation of signaling proteins in vertebrate photoreceptors.

Calvert PD, Strissel KJ, Schiesser WE, Pugh EN Jr, Arshavsky VY.

Trends Cell Biol. 2006 Nov;16(11):560-8. Epub 2006 Sep 22. Review.

PMID:
16996267
3.

Conformational states and dynamics of rhodopsin in micelles and bilayers.

Kusnetzow AK, Altenbach C, Hubbell WL.

Biochemistry. 2006 May 2;45(17):5538-50.

4.

Differential interaction of spin-labeled arrestin with inactive and active phosphorhodopsin.

Hanson SM, Francis DJ, Vishnivetskiy SA, Kolobova EA, Hubbell WL, Klug CS, Gurevich VV.

Proc Natl Acad Sci U S A. 2006 Mar 28;103(13):4900-5. Epub 2006 Mar 17.

5.

Visual arrestin binding to microtubules involves a distinct conformational change.

Hanson SM, Francis DJ, Vishnivetskiy SA, Klug CS, Gurevich VV.

J Biol Chem. 2006 Apr 7;281(14):9765-72. Epub 2006 Feb 6.

6.
7.

Crystal structure of cone arrestin at 2.3A: evolution of receptor specificity.

Sutton RB, Vishnivetskiy SA, Robert J, Hanson SM, Raman D, Knox BE, Kono M, Navarro J, Gurevich VV.

J Mol Biol. 2005 Dec 16;354(5):1069-80. Epub 2005 Nov 2.

PMID:
16289201
8.

Mapping of the docking of SecA onto the chaperone SecB by site-directed spin labeling: insight into the mechanism of ligand transfer during protein export.

Crane JM, Mao C, Lilly AA, Smith VF, Suo Y, Hubbell WL, Randall LL.

J Mol Biol. 2005 Oct 21;353(2):295-307.

PMID:
16169560
9.

Light-dependent redistribution of arrestin in vertebrate rods is an energy-independent process governed by protein-protein interactions.

Nair KS, Hanson SM, Mendez A, Gurevich EV, Kennedy MJ, Shestopalov VI, Vishnivetskiy SA, Chen J, Hurley JB, Gurevich VV, Slepak VZ.

Neuron. 2005 May 19;46(4):555-67.

10.

Assessing oligomerization of membrane proteins by four-pulse DEER: pH-dependent dimerization of NhaA Na+/H+ antiporter of E. coli.

Hilger D, Jung H, Padan E, Wegener C, Vogel KP, Steinhoff HJ, Jeschke G.

Biophys J. 2005 Aug;89(2):1328-38. Epub 2005 May 13.

12.

Direct binding of visual arrestin to microtubules determines the differential subcellular localization of its splice variants in rod photoreceptors.

Nair KS, Hanson SM, Kennedy MJ, Hurley JB, Gurevich VV, Slepak VZ.

J Biol Chem. 2004 Sep 24;279(39):41240-8. Epub 2004 Jul 21.

13.

Using light scattering to determine the stoichiometry of protein complexes.

Mogridge J.

Methods Mol Biol. 2004;261:113-8. Review.

PMID:
15064452
15.
16.

Concentration-dependent tetramerization of bovine visual arrestin.

Imamoto Y, Tamura C, Kamikubo H, Kataoka M.

Biophys J. 2003 Aug;85(2):1186-95.

17.

Distance measurements in the nanometer range by pulse EPR.

Jeschke G.

Chemphyschem. 2002 Nov 15;3(11):927-32. Review.

PMID:
12503132
18.

The solution structure and activation of visual arrestin studied by small-angle X-ray scattering.

Shilton BH, McDowell JH, Smith WC, Hargrave PA.

Eur J Biochem. 2002 Aug;269(15):3801-9.

19.

Protein structure determination using long-distance constraints from double-quantum coherence ESR: study of T4 lysozyme.

Borbat PP, McHaourab HS, Freed JH.

J Am Chem Soc. 2002 May 15;124(19):5304-14.

PMID:
11996571
20.

Massive light-driven translocation of transducin between the two major compartments of rod cells: a novel mechanism of light adaptation.

Sokolov M, Lyubarsky AL, Strissel KJ, Savchenko AB, Govardovskii VI, Pugh EN Jr, Arshavsky VY.

Neuron. 2002 Mar 28;34(1):95-106.

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