G-protein linked receptor: Difference between revisions
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Ligand will bind to extracellular ligand-binding domain of G-protein coupled receptor. After binding of ligand, receptor undergoes conformational change and activate G-protein. α-subunit undergoes conformation change and causes GDP to dissociate from α-subunit. α-subunit binds GTP and causes further conformational change of G-protein. α subunit and βγ subunits are activated and dissociate. G-protein transduces signals by binding to target protein (eg. [https://teaching.ncl.ac.uk/bms/wiki/index.php/Adenylyl_cyclase adenylyl cyclase], [https://teaching.ncl.ac.uk/bms/wiki/index.php/Phospholipase_C phospholipase C)]. Activated target proteins relay signal to the other components in signalling cascade. α subunit hydrolyses GTP to GDP and inactivate α subunit. Inactivated α subunit reassembles with βγ subunits to reform an inactivate G protein. <ref>garlandscience. G-Protein Signaling [Internet]. YouTube. YouTube; 2009 [cited 2017Dec4]. Available from: https://www.youtube.com/watch?v=V_0EcUr_txk#t=2.19446</ref><br><br> | Ligand will bind to extracellular ligand-binding domain of G-protein coupled receptor. After binding of ligand, receptor undergoes conformational change and activate G-protein. α-subunit undergoes conformation change and causes GDP to dissociate from α-subunit. α-subunit binds GTP and causes further conformational change of G-protein. α subunit and βγ subunits are activated and dissociate. G-protein transduces signals by binding to target protein (eg. [https://teaching.ncl.ac.uk/bms/wiki/index.php/Adenylyl_cyclase adenylyl cyclase], [https://teaching.ncl.ac.uk/bms/wiki/index.php/Phospholipase_C phospholipase C)]. Activated target proteins relay signal to the other components in signalling cascade. α subunit hydrolyses GTP to GDP and inactivate α subunit. Inactivated α subunit reassembles with βγ subunits to reform an inactivate G protein. <ref>garlandscience. G-Protein Signaling [Internet]. YouTube. YouTube; 2009 [cited 2017Dec4]. Available from: https://www.youtube.com/watch?v=V_0EcUr_txk#t=2.19446</ref><br><br> | ||
=== References<br> | === References<br> === | ||
Revision as of 13:58, 4 December 2017
G-protein linked receptors, also known as G-protein Coupled receptors (GPCR), are a family of receptor signal transducers which are involved in signalling pathways within cells [1].They can be further divided into to monomeric and trimeric regarding how many components make up the G-protein in question. Subtypes, each with an endogenous agonist, are involved in maintaining physiological systems such as rhodopsin in rod cells required for vision [2].
Structure
The structure of these proteins comprises of seven transmembrane helices with an extracellular ligand binding domain and an intracellular G-protein binding domain [3].
Mechanism
Trimeric G-proteins
Ligand will bind to extracellular ligand-binding domain of G-protein coupled receptor. After binding of ligand, receptor undergoes conformational change and activate G-protein. α-subunit undergoes conformation change and causes GDP to dissociate from α-subunit. α-subunit binds GTP and causes further conformational change of G-protein. α subunit and βγ subunits are activated and dissociate. G-protein transduces signals by binding to target protein (eg. adenylyl cyclase, phospholipase C). Activated target proteins relay signal to the other components in signalling cascade. α subunit hydrolyses GTP to GDP and inactivate α subunit. Inactivated α subunit reassembles with βγ subunits to reform an inactivate G protein. [4]
References
- ↑ Cascieri.Fong.Graziano.Tota.Candelore.Strader. (1996) ‘Signaling through G-Protein-coupled Receptors’, pg93, in Heldin,C. Purton,M and International Union of Biochemistry and Molecular Biology. (ed) Signal Transduction, London: Chapman &amp;amp;amp;amp;amp; Hall in association with the IUBMB
- ↑ Cascieri.Fong.Graziano.Tota.Candelore.Strader. (1996) ‘Signaling through G-Protein-coupled Receptors’, pg94, in Heldin,C. Purton,M and International Union of Biochemistry and Molecular Biology. (ed) Signal Transduction, London: Chapman &amp;amp;amp;amp;amp; Hall in association with the IUBMB
- ↑ Cascieri.Fong.Graziano.Tota.Candelore.Strader. (1996) ‘Signaling through G-Protein-coupled Receptors’, pg94, in Heldin,C. Purton,M and International Union of Biochemistry and Molecular Biology. (ed) Signal Transduction, London: Chapman &amp;amp;amp;amp;amp; Hall in association with the IUBMB
- ↑ garlandscience. G-Protein Signaling [Internet]. YouTube. YouTube; 2009 [cited 2017Dec4]. Available from: https://www.youtube.com/watch?v=V_0EcUr_txk#t=2.19446