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XB-GENEPAGE-992757
Papers associated with cnga2
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Hydrophobic alkyl chains substituted to the 8-position of cyclic nucleotides enhance activation of CNG and HCN channels by an intricate enthalpy - entropy compensation., Otte M, Schweinitz A, Bonus M, Enke U, Schumann C, Gohlke H, Benndorf K., Sci Rep. October 8, 2018; 8 (1): 14960.  |
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Deciphering the function of the CNGB1b subunit in olfactory CNG channels., Nache V, Wongsamitkul N, Kusch J, Zimmer T, Schwede F, Benndorf K., Sci Rep. July 11, 2016; 6 29378.  |
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Quantifying the cooperative subunit action in a multimeric membrane receptor., Wongsamitkul N, Nache V, Eick T, Hummert S, Schulz E, Schmauder R, Schirmeyer J, Zimmer T, Benndorf K., Sci Rep. January 22, 2016; 6 20974.  |
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External pH modulates EAG superfamily K+ channels through EAG-specific acidic residues in the voltage sensor., Kazmierczak M, Zhang X, Chen B, Mulkey DK, Shi Y, Wagner PG, Pivaroff-Ward K, Sassic JK, Bayliss DA, Jegla T., J Gen Physiol. June 1, 2013; 141 (6): 721-35.  |
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Two structural components in CNGA3 support regulation of cone CNG channels by phosphoinositides., Dai G, Peng C, Liu C, Varnum MD., J Gen Physiol. April 1, 2013; 141 (4): 413-30.  |
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Hysteresis of ligand binding in CNGA2 ion channels., Nache V, Eick T, Schulz E, Schmauder R, Benndorf K., Nat Commun. January 1, 2013; 4 2866.  |
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Ligand-binding domain subregions contributing to bimodal agonism in cyclic nucleotide-gated channels., Wong WF, Chan KS, Michaleski MS, Haesler A, Young EC., J Gen Physiol. June 1, 2011; 137 (6): 591-603.  |
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Thermodynamics of activation gating in olfactory-type cyclic nucleotide-gated (CNGA2) channels., Nache V, Kusch J, Biskup C, Schulz E, Zimmer T, Hagen V, Benndorf K., Biophys J. September 15, 2008; 95 (6): 2750-8. |
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Relating ligand binding to activation gating in CNGA2 channels., Biskup C, Kusch J, Schulz E, Nache V, Schwede F, Lehmann F, Hagen V, Benndorf K., Nature. March 22, 2007; 446 (7134): 440-3. |
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Odorant inhibition of the olfactory cyclic nucleotide-gated channel with a native molecular assembly., Chen TY, Takeuchi H, Kurahashi T., J Gen Physiol. September 1, 2006; 128 (3): 365-71.  |
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Activation of olfactory-type cyclic nucleotide-gated channels is highly cooperative., Nache V, Schulz E, Zimmer T, Kusch J, Biskup C, Koopmann R, Hagen V, Benndorf K., J Physiol. November 15, 2005; 569 (Pt 1): 91-102. |
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Mutation of the pore glutamate affects both cytoplasmic and external dequalinium block in the rat olfactory CNGA2 channel., Qu W, Moorhouse AJ, Lewis TM, Pierce KD, Barry PH., Eur Biophys J. July 1, 2005; 34 (5): 442-53. |
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Salt bridges and gating in the COOH-terminal region of HCN2 and CNGA1 channels., Craven KB, Zagotta WN., J Gen Physiol. December 1, 2004; 124 (6): 663-77.  |
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Stoichiometry and assembly of olfactory cyclic nucleotide-gated channels., Zheng J, Zagotta WN., Neuron. May 13, 2004; 42 (3): 411-21. |
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State-dependent block of CNG channels by dequalinium., Rosenbaum T, Gordon-Shaag A, Islas LD, Cooper J, Munari M, Gordon SE., J Gen Physiol. March 1, 2004; 123 (3): 295-304.  |
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Purification and cloning of toxins from elapid venoms that target cyclic nucleotide-gated ion channels., Yamazaki Y, Brown RL, Morita T., Biochemistry. September 24, 2002; 41 (38): 11331-7. |
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Mechanism of calcium/calmodulin inhibition of rod cyclic nucleotide-gated channels., Trudeau MC, Zagotta WN., Proc Natl Acad Sci U S A. June 11, 2002; 99 (12): 8424-9.  |
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Efficient coupling of ligand binding to channel opening by the binding domain of a modulatory (beta) subunit of the olfactory cyclic nucleotide-gated channel., Young EC, Sciubba DM, Siegelbaum SA., J Gen Physiol. November 1, 2001; 118 (5): 523-46.  |
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