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Items: 1 to 20 of 175

1.

Differences in the pharmacological activation of visual opsins.

Isayama T, Chen Y, Kono M, Degrip WJ, Ma JX, Crouch RK, Makino CL.

Vis Neurosci. 2006 Nov-Dec;23(6):899-908.

PMID:
17266782
2.

Beta-ionone activates and bleaches visual pigment in salamander photoreceptors.

Isayama T, McCabe England SL, Crouch RK, Zimmerman AL, Makino CL.

Vis Neurosci. 2009 May-Jun;26(3):267-74. doi: 10.1017/S0952523809090105. Epub 2009 Jun 5.

3.

The action of 11-cis-retinol on cone opsins and intact cone photoreceptors.

Ala-Laurila P, Cornwall MC, Crouch RK, Kono M.

J Biol Chem. 2009 Jun 12;284(24):16492-500. doi: 10.1074/jbc.M109.004697. Epub 2009 Apr 22.

4.

Occupancy of the chromophore binding site of opsin activates visual transduction in rod photoreceptors.

Kefalov VJ, Carter Cornwall M, Crouch RK.

J Gen Physiol. 1999 Mar;113(3):491-503.

5.

A visual pigment expressed in both rod and cone photoreceptors.

Ma J, Znoiko S, Othersen KL, Ryan JC, Das J, Isayama T, Kono M, Oprian DD, Corson DW, Cornwall MC, Cameron DA, Harosi FI, Makino CL, Crouch RK.

Neuron. 2001 Nov 8;32(3):451-61.

6.

Breaking the covalent bond--a pigment property that contributes to desensitization in cones.

Kefalov VJ, Estevez ME, Kono M, Goletz PW, Crouch RK, Cornwall MC, Yau KW.

Neuron. 2005 Jun 16;46(6):879-90.

7.

Identification and distribution of photoreceptor subtypes in the neotenic tiger salamander retina.

Sherry DM, Bui DD, Degrip WJ.

Vis Neurosci. 1998 Nov-Dec;15(6):1175-87.

PMID:
9839981
8.
9.

cis Retinol oxidation regulates photoreceptor access to the retina visual cycle and cone pigment regeneration.

Sato S, Kefalov VJ.

J Physiol. 2016 Nov 15;594(22):6753-6765. doi: 10.1113/JP272831. Epub 2016 Aug 2.

PMID:
27385534
10.

Physiological features of the S- and M-cone photoreceptors of wild-type mice from single-cell recordings.

Nikonov SS, Kholodenko R, Lem J, Pugh EN Jr.

J Gen Physiol. 2006 Apr;127(4):359-74.

11.

Salamander rods and cones contain distinct transducin alpha subunits.

Ryan JC, Znoiko S, Xu L, Crouch RK, Ma JX.

Vis Neurosci. 2000 Nov-Dec;17(6):847-54.

PMID:
11193101
12.

Effect of 11-cis 13-demethylretinal on phototransduction in bleach-adapted rod and cone photoreceptors.

Corson DW, Kefalov VJ, Cornwall MC, Crouch RK.

J Gen Physiol. 2000 Aug;116(2):283-97.

13.

Phosphorylation-independent suppression of light-activated visual pigment by arrestin in carp rods and cones.

Tomizuka J, Tachibanaki S, Kawamura S.

J Biol Chem. 2015 Apr 10;290(15):9399-411. doi: 10.1074/jbc.M114.634543. Epub 2015 Feb 20.

14.

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
15.

Unusual cone and rod properties in subterranean African mole-rats (Rodentia, Bathyergidae).

Peichl L, Nemec P, Burda H.

Eur J Neurosci. 2004 Mar;19(6):1545-58.

PMID:
15066151
16.

Selective absence of cone outer segment beta 3-transducin immunoreactivity in hereditary cone degeneration (cd).

Gropp KE, Szél A, Huang JC, Acland GM, Farber DB, Aguirre GD.

Exp Eye Res. 1996 Sep;63(3):285-96.

PMID:
8943701
17.

Palmitylation of cone opsins.

Ablonczy Z, Kono M, Knapp DR, Crouch RK.

Vision Res. 2006 Dec;46(27):4493-501. Epub 2006 Sep 20.

18.

Cone and rod inputs to murine retinal ganglion cells: evidence of cone opsin specific channels.

Ekesten B, Gouras P.

Vis Neurosci. 2005 Nov-Dec;22(6):893-903.

PMID:
16469196
19.

In vitro assays of rod and cone opsin activity: retinoid analogs as agonists and inverse agonists.

Kono M, Crouch RK.

Methods Mol Biol. 2010;652:85-94. doi: 10.1007/978-1-60327-325-1_4.

20.

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