k GABAB receptor activation, molecular model Molecular model of GABAB receptor centre, darker blue and purple, an example of a Gcoupled protein receptor GPCR, binding to the agonist baclofen red. The binding of the drug baclofen to the GABAB receptor causes the alpha subunit of the Gprotein bottom, light blue to exchange its bound molecule of GDP not seen, guanosine diphosphate for a molecule of GTP guanosine triphosphate. This releases the alpha subunit from the GABAB receptor, allowing it to bind to the enzyme adenylyl cyclase and activate it. Adenylyl cyclase catalyses the conversion of ATP adenosine triphosphate to cyclic adenosine monophosphate cAMP. cAMP regulates numerous cell functions. , by JUAN GAERTNERSCIENCE PHOTO LIBRARY Stock Photo - Afloimages
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GABA B receptor activation, molecular model Molecular model of GABA B receptor centre, darker blue and purple , an example of a G coupled protein receptor GPCR , binding to the agonist baclofen red . The binding of the drug baclofen to the GABA B receptor causes the alpha subunit of the G protein bottom, light blue to exchange its bound molecule of GDP not seen, guanosine diphosphate for a molecule of GTP guanosine triphosphate . This releases the alpha subunit from the GABA B receptor, allowing it to bind to the enzyme adenylyl cyclase and activate it. Adenylyl cyclase catalyses the conversion of ATP adenosine triphosphate to cyclic adenosine monophosphate cAMP . cAMP regulates numerous cell functions. , by JUAN GAERTNER SCIENCE PHOTO LIBRARY
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GABA-B receptor activation, molecular model

Molecular model of GABA-B receptor (centre, darker blue and purple), an example of a G-coupled protein receptor (GPCR), binding to the agonist baclofen (red). The binding of the drug baclofen to the GABA-B receptor causes the alpha subunit of the G-protein (bottom, light blue) to exchange its bound molecule of GDP (not seen, guanosine diphosphate) for a molecule of GTP (guanosine triphosphate). This releases the alpha subunit from the GABA-B receptor, allowing it to bind to the enzyme adenylyl cyclase and activate it. Adenylyl cyclase catalyses the conversion of ATP (adenosine triphosphate) to cyclic adenosine monophosphate (cAMP). cAMP regulates numerous cell functions. , by JUAN GAERTNER/SCIENCE PHOTO LIBRARY

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