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Title:	Identification of residues crucially involved in soluble guanylate cyclase activation
Source:	Febs Letters [0014-5793] Rothkegel, Christiane yr:2006

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description	1.	Schmidt, P. "Mechanisms of nitric oxide independent activation of soluble guanylyl cyclase." European Journal of Pharmacology 468.3 (2003): 167-74.
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description	4.	Miller, Alyson A A. "NADPH Oxidase Activity and Function Are Profoundly Greater in Cerebral Versus Systemic Arteries." Circulation research 97.10 (2005): 1055-1062.
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description	6.	IGNARRO, L. "ACTIVATION OF PURIFIED SOLUBLE GUANYLATE-CYCLASE BY PROTOPORPHYRIN-IX." PNAS: Proceedings of the National Academy of Sciences of the United States of America 79.9 (1982): 2870-2873.
description	7.	Nioche, P. "Femtomolar sensitivity of a NO sensor from Clostridium botulinum." Science 306.5701 (2004): 1550-1553.
description	8.	Poulos, Thomas L L. "Soluble guanylate cyclase." Current opinion in structural biology 16.6 (2007): 736-43.
description	9.	Schermuly, R. "Activation of soluble guanylate cyclase reverses experimental pulmonary hypertension and vascular remodeling." Circulation 113.2 (2005): 286-95.
description	10.	Polak, J. "A molecular basis for NO selectivity in soluble guanylate cyclase." Nature chemical biology 1.1 (2005): 53-9.
description	11.	Hobbs, Adrian J J. "Soluble guanylate cyclase: an old therapeutic target re-visited." British journal of pharmacology 136.5 (2002): 637-40.
description	12.	Ignarro, Louis J J. "Wei Lun Visiting Professorial Lecture: Nitric oxide in the regulation of vascular function: an historical overview." Journal of cardiac surgery 17.4 (2002): 301-6.
description	13.	Hobbs, A J J. "Soluble guanylate cyclase: the forgotten sibling." Trends in Pharmacological Sciences 18.12 (1998): 484-91.
description	14.	Evgenov, OV V. "NO-independent stimulators and activators of soluble guanylate cyclase: discovery and therapeutic potential." Nature reviews. Drug discovery 5.9 (2006): 755-768.
description	15.	Zhou, Z. "Soluble guanylyl cyclase activation by HMR-1766 (ataciguat) in cells exposed to oxidative stress." American journal of physiology. Heart and circulatory physiology 295.4 (2008).
description	16.	Hu, X. "Binding of YC-1 or BAY 41-2272 to soluble guanylyl cyclase induces a geminate phase in CO photolysis." Journal of the American Chemical Society 130.47 (2008): 15748-9.
description	17.	Stasch, J. "Targeting the heme-oxidized nitric oxide receptor for selective vasodilatation of diseased blood vessels." The journal of clinical investigation 116.9 (2006): 2552-2561.
description	18.	Mascharak, Pradip K. "Designed Iron Carbonyls as Carbon Monoxide (CO) Releasing Molecules: Rapid CO Release and Delivery to Myoglobin in Aqueous Buffer, and Vasorelaxation of Mouse Aorta." Inorganic chemistry 50.7 (2011): 3127-3134.
description	19.	Olea, C. "Modulating Heme Redox Potential through Protein-Induced Porphyrin Distortion." Journal of the American Chemical Society 132.37 (2010): 12794-12795.
description	20.	Hall, David M. "In vivo detection of transition metals and nitrosyl-heme complexes using ex vivo electron paramagnetic resonance spectroscopy." Methods in molecular biology 196 (2002): 211-219.