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Items: 1 to 20 of 110

1.

Interaction of retinal guanylate cyclase with the alpha subunit of transducin: potential role in transducin localization.

Rosenzweig DH, Nair KS, Levay K, Peshenko IV, Crabb JW, Dizhoor AM, Slepak VZ.

Biochem J. 2009 Feb 1;417(3):803-12. doi: 10.1042/BJ20081513.

2.

Transducin subunit stoichiometry and cellular distribution in rod outer segments.

Clack JW, Springmeyer ML, Clark CR, Witzmann FA.

Cell Biol Int. 2006 Oct;30(10):829-35. Epub 2006 Jun 30.

PMID:
16895762
5.

Inhibition of retinal guanylyl cyclase by the RGS9-1 N-terminus.

Yu H, Bondarenko VA, Yamazaki A.

Biochem Biophys Res Commun. 2001 Aug 10;286(1):12-9.

PMID:
11485301
6.

A critical role for ATP in the stimulation of retinal guanylyl cyclase by guanylyl cyclase-activating proteins.

Yamazaki A, Yu H, Yamazaki M, Honkawa H, Matsuura I, Usukura J, Yamazaki RK.

J Biol Chem. 2003 Aug 29;278(35):33150-60. Epub 2003 Jun 10.

7.

Retinal degeneration 3 (RD3) protein inhibits catalytic activity of retinal membrane guanylyl cyclase (RetGC) and its stimulation by activating proteins.

Peshenko IV, Olshevskaya EV, Azadi S, Molday LL, Molday RS, Dizhoor AM.

Biochemistry. 2011 Nov 8;50(44):9511-9. doi: 10.1021/bi201342b. Epub 2011 Oct 11.

8.

Activation of retinal guanylyl cyclase-1 by Ca2+-binding proteins involves its dimerization.

Yu H, Olshevskaya E, Duda T, Seno K, Hayashi F, Sharma RK, Dizhoor AM, Yamazaki A.

J Biol Chem. 1999 May 28;274(22):15547-55.

9.

Phosducin facilitates light-driven transducin translocation in rod photoreceptors. Evidence from the phosducin knockout mouse.

Sokolov M, Strissel KJ, Leskov IB, Michaud NA, Govardovskii VI, Arshavsky VY.

J Biol Chem. 2004 Apr 30;279(18):19149-56. Epub 2004 Feb 18.

10.

Illuminated rhodopsin is required for strong activation of retinal guanylate cyclase by guanylate cyclase-activating proteins.

Yamazaki A, Yamazaki M, Yamazaki RK, Usukura J.

Biochemistry. 2006 Feb 14;45(6):1899-909.

PMID:
16460036
11.

Transducin activation state controls its light-dependent translocation in rod photoreceptors.

Kerov V, Chen D, Moussaif M, Chen YJ, Chen CK, Artemyev NO.

J Biol Chem. 2005 Dec 9;280(49):41069-76. Epub 2005 Oct 4.

12.

A dominant-negative Galpha mutant that traps a stable rhodopsin-Galpha-GTP-betagamma complex.

Ramachandran S, Cerione RA.

J Biol Chem. 2011 Apr 8;286(14):12702-11. doi: 10.1074/jbc.M110.166538. Epub 2011 Feb 1.

13.

The membrane guanylyl cyclase, retinal guanylyl cyclase-1, is activated through its intracellular domain.

Laura RP, Dizhoor AM, Hurley JB.

J Biol Chem. 1996 May 17;271(20):11646-51.

15.

Enzymatic properties and regulation of the native isozymes of retinal membrane guanylyl cyclase (RetGC) from mouse photoreceptors.

Peshenko IV, Olshevskaya EV, Savchenko AB, Karan S, Palczewski K, Baehr W, Dizhoor AM.

Biochemistry. 2011 Jun 28;50(25):5590-600. doi: 10.1021/bi200491b. Epub 2011 Jun 6.

17.

A novel role of RGS9: inhibition of retinal guanylyl cyclase.

Bondarenko VA, Yu H, Yamazaki RK, Yamazaki A.

Mol Cell Biochem. 2002 Jan;230(1-2):125-8. Review.

PMID:
11952087
18.

Enzymatic relay mechanism stimulates cyclic GMP synthesis in rod photoresponse: biochemical and physiological study in guanylyl cyclase activating protein 1 knockout mice.

Makino CL, Wen XH, Olshevskaya EV, Peshenko IV, Savchenko AB, Dizhoor AM.

PLoS One. 2012;7(10):e47637. doi: 10.1371/journal.pone.0047637. Epub 2012 Oct 17.

20.

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