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Items: 1 to 20 of 40

1.

Adaptation in vertebrate photoreceptors.

Fain GL, Matthews HR, Cornwall MC, Koutalos Y.

Physiol Rev. 2001 Jan;81(1):117-151. Review.

2.

The role of steady phosphodiesterase activity in the kinetics and sensitivity of the light-adapted salamander rod photoresponse.

Nikonov S, Lamb TD, Pugh EN Jr.

J Gen Physiol. 2000 Dec;116(6):795-824. Erratum in: J Gen Physiol 2001 Apr;117(4):367.

3.

Rapid and reproducible deactivation of rhodopsin requires multiple phosphorylation sites.

Mendez A, Burns ME, Roca A, Lem J, Wu LW, Simon MI, Baylor DA, Chen J.

Neuron. 2000 Oct;28(1):153-64.

4.

Ca(2+)-binding proteins in the retina: structure, function, and the etiology of human visual diseases.

Palczewski K, Polans AS, Baehr W, Ames JB.

Bioessays. 2000 Apr;22(4):337-50. Review.

PMID:
10723031
5.

Regulation of photoreceptor membrane guanylyl cyclases by guanylyl cyclase activator proteins.

Dizhoor AM, Hurley JB.

Methods. 1999 Dec;19(4):521-31. Review.

PMID:
10581151
6.

Molecular mechanisms of vertebrate photoreceptor light adaptation.

Pugh EN Jr, Nikonov S, Lamb TD.

Curr Opin Neurobiol. 1999 Aug;9(4):410-8. Review.

PMID:
10448166
7.

Disruption of a retinal guanylyl cyclase gene leads to cone-specific dystrophy and paradoxical rod behavior.

Yang RB, Robinson SW, Xiong WH, Yau KW, Birch DG, Garbers DL.

J Neurosci. 1999 Jul 15;19(14):5889-97.

8.
9.

Molecular characterization of a third member of the guanylyl cyclase-activating protein subfamily.

Haeseleer F, Sokal I, Li N, Pettenati M, Rao N, Bronson D, Wechter R, Baehr W, Palczewski K.

J Biol Chem. 1999 Mar 5;274(10):6526-35.

10.

Role for the target enzyme in deactivation of photoreceptor G protein in vivo.

Tsang SH, Burns ME, Calvert PD, Gouras P, Baylor DA, Goff SP, Arshavsky VY.

Science. 1998 Oct 2;282(5386):117-21.

11.
13.

Gene array and expression of mouse retina guanylate cyclase activating proteins 1 and 2.

Howes K, Bronson JD, Dang YL, Li N, Zhang K, Ruiz C, Helekar B, Lee M, Subbaraya I, Kolb H, Chen J, Baehr W.

Invest Ophthalmol Vis Sci. 1998 May;39(6):867-75.

PMID:
9579466
14.

Guanylate-cyclase-inhibitory protein is a frog retinal Ca2+-binding protein related to mammalian guanylate-cyclase-activating proteins.

Li N, Fariss RN, Zhang K, Otto-Bruc A, Haeseleer F, Bronson D, Qin N, Yamazaki A, Subbaraya I, Milam AH, Palczewski K, Baehr W.

Eur J Biochem. 1998 Mar 15;252(3):591-9.

15.

Changes in biological activity and folding of guanylate cyclase-activating protein 1 as a function of calcium.

Rudnicka-Nawrot M, Surgucheva I, Hulmes JD, Haeseleer F, Sokal I, Crabb JW, Baehr W, Palczewski K.

Biochemistry. 1998 Jan 6;37(1):248-57.

PMID:
9425045
16.

Kinetics of recovery of the dark-adapted salamander rod photoresponse.

Nikonov S, Engheta N, Pugh EN Jr.

J Gen Physiol. 1998 Jan;111(1):7-37.

17.

Functional reconstitution of photoreceptor guanylate cyclase with native and mutant forms of guanylate cyclase-activating protein 1.

Otto-Bruc A, Buczylko J, Surgucheva I, Subbaraya I, Rudnicka-Nawrot M, Crabb JW, Arendt A, Hargrave PA, Baehr W, Palczewski K.

Biochemistry. 1997 Apr 8;36(14):4295-302.

PMID:
9100025
18.

Mechanism of odorant adaptation in the olfactory receptor cell.

Kurahashi T, Menini A.

Nature. 1997 Feb 20;385(6618):725-9.

PMID:
9034189
19.

Visualizing an olfactory sensory map.

Mombaerts P, Wang F, Dulac C, Chao SK, Nemes A, Mendelsohn M, Edmondson J, Axel R.

Cell. 1996 Nov 15;87(4):675-86.

20.

Regulation of sensitivity in vertebrate rod photoreceptors by calcium.

Koutalos Y, Yau KW.

Trends Neurosci. 1996 Feb;19(2):73-81. Review.

PMID:
8820871

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