Beta2 adrenergic receptor-Gs protein complex: Difference between revisions
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== G-Protein Activation Cycle == | == G-Protein Activation Cycle == | ||
[[Image:Img.JPG| | [[Image:Img.JPG|600px|G protein cycle for the β2AR–Gs complex. Reprinted by permission from Macmillan Publishers Ltd on behalf of Cancer Research UK: Nature 477, 549–555, copyright 2011]] | ||
The figure shows the G Protein cycle<ref>doi:10.1038/nature10361</ref> - an extracellular agonist binding to the β2AR leads to <scene name='70/701430/Receptor_morphing_animation/2'>conformational rearrangements</scene> of the cytoplasmic ends of transmembrane segments that enable the Gs heterotrimer to bind the receptor. GDP is released from the α subunit upon formation of β2AR–Gs complex. The GTP binds to the nucleotide-free α subunit resulting in dissociation of the α and βγ subunits from the receptor. The subunits regulate their respective effector proteins adenylyl cyclase (AC) and Ca2+ channels. The Gs heterotrimer reassembles from α and βγ subunits following hydrolysis of GTP to GDP in the α subunit. | The figure shows the G Protein cycle<ref>doi:10.1038/nature10361</ref> - an extracellular agonist binding to the β2AR leads to <scene name='70/701430/Receptor_morphing_animation/2'>conformational rearrangements</scene> of the cytoplasmic ends of transmembrane segments that enable the Gs heterotrimer to bind the receptor. GDP is released from the α subunit upon formation of β2AR–Gs complex. The GTP binds to the nucleotide-free α subunit resulting in dissociation of the α and βγ subunits from the receptor. The subunits regulate their respective effector proteins adenylyl cyclase (AC) and Ca2+ channels. The Gs heterotrimer reassembles from α and βγ subunits following hydrolysis of GTP to GDP in the α subunit. | ||