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Items: 1 to 20 of 133

1.

Rhodopsin expression level affects rod outer segment morphology and photoresponse kinetics.

Makino CL, Wen XH, Michaud NA, Covington HI, DiBenedetto E, Hamm HE, Lem J, Caruso G.

PLoS One. 2012;7(5):e37832. doi: 10.1371/journal.pone.0037832. Epub 2012 May 25.

2.

Tuning outer segment Ca2+ homeostasis to phototransduction in rods and cones.

Korenbrot JI, Rebrik TI.

Adv Exp Med Biol. 2002;514:179-203. Review.

PMID:
12596922
3.

Membrane protein diffusion sets the speed of rod phototransduction.

Calvert PD, Govardovskii VI, Krasnoperova N, Anderson RE, Lem J, Makino CL.

Nature. 2001 May 3;411(6833):90-4.

PMID:
11333983
4.

Rhodopsin is spatially heterogeneously distributed in rod outer segment disk membranes.

Buzhynskyy N, Salesse C, Scheuring S.

J Mol Recognit. 2011 May-Jun;24(3):483-9. doi: 10.1002/jmr.1086.

PMID:
21504027
5.

Overexpression of rhodopsin alters the structure and photoresponse of rod photoreceptors.

Wen XH, Shen L, Brush RS, Michaud N, Al-Ubaidi MR, Gurevich VV, Hamm HE, Lem J, Dibenedetto E, Anderson RE, Makino CL.

Biophys J. 2009 Feb;96(3):939-50. doi: 10.1016/j.bpj.2008.10.016.

6.

The role of cholesterol in rod outer segment membranes.

Albert AD, Boesze-Battaglia K.

Prog Lipid Res. 2005 Mar-May;44(2-3):99-124. Epub 2005 Mar 9. Review.

7.

Modeling the role of incisures in vertebrate phototransduction.

Caruso G, Bisegna P, Shen L, Andreucci D, Hamm HE, DiBenedetto E.

Biophys J. 2006 Aug 15;91(4):1192-212. Epub 2006 May 19.

8.

Defective development of photoreceptor membranes in a mouse model of recessive retinal degeneration.

Gross AK, Decker G, Chan F, Sandoval IM, Wilson JH, Wensel TG.

Vision Res. 2006 Dec;46(27):4510-8. Epub 2006 Sep 18.

9.

Signaling states of rhodopsin in rod disk membranes lacking transducin βγ-complex.

Lomonosova E, Kolesnikov AV, Kefalov VJ, Kisselev OG.

Invest Ophthalmol Vis Sci. 2012 Mar 9;53(3):1225-33. doi: 10.1167/iovs.11-9350. Print 2012 Mar.

10.

Rhodopsin transport in the membrane of the connecting cilium of mammalian photoreceptor cells.

Wolfrum U, Schmitt A.

Cell Motil Cytoskeleton. 2000 Jun;46(2):95-107.

PMID:
10891855
11.

Physiological properties of rod photoreceptor cells in green-sensitive cone pigment knock-in mice.

Sakurai K, Onishi A, Imai H, Chisaka O, Ueda Y, Usukura J, Nakatani K, Shichida Y.

J Gen Physiol. 2007 Jul;130(1):21-40.

12.

Microtubules in a rod-specific cytoskeleton associated with outer segment incisures.

Eckmiller MS.

Vis Neurosci. 2000 Sep-Oct;17(5):711-22.

PMID:
11153651
13.

Opsin activation of transduction in the rods of dark-reared Rpe65 knockout mice.

Fan J, Woodruff ML, Cilluffo MC, Crouch RK, Fain GL.

J Physiol. 2005 Oct 1;568(Pt 1):83-95. Epub 2005 Jul 1.

14.
15.

Cytoskeleton participation in subcellular trafficking of signal transduction proteins in rod photoreceptor cells.

McGinnis JF, Matsumoto B, Whelan JP, Cao W.

J Neurosci Res. 2002 Feb 1;67(3):290-7.

PMID:
11813233
16.

The translocation of signaling molecules in dark adapting mammalian rod photoreceptor cells is dependent on the cytoskeleton.

Reidel B, Goldmann T, Giessl A, Wolfrum U.

Cell Motil Cytoskeleton. 2008 Oct;65(10):785-800. doi: 10.1002/cm.20300.

PMID:
18623243
18.

Arrestin-1 expression level in rods: balancing functional performance and photoreceptor health.

Song X, Vishnivetskiy SA, Seo J, Chen J, Gurevich EV, Gurevich VV.

Neuroscience. 2011 Feb 3;174:37-49. doi: 10.1016/j.neuroscience.2010.11.009. Epub 2010 Nov 12.

19.

Toward a unified model of vertebrate rod phototransduction.

Hamer RD, Nicholas SC, Tranchina D, Lamb TD, Jarvinen JL.

Vis Neurosci. 2005 Jul-Aug;22(4):417-36.

20.

Extra-mitochondrial aerobic metabolism in retinal rod outer segments: new perspectives in retinopathies.

Panfoli I, Calzia D, Ravera S, Morelli AM, Traverso CE.

Med Hypotheses. 2012 Apr;78(4):423-7. doi: 10.1016/j.mehy.2011.12.012. Epub 2012 Jan 28.

PMID:
22284635
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