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PLC beta 3 Gq

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Revision as of 08:02, 14 May 2015

Unique bidirectional interactions of Phospholipase C beta 3 with G alpha Q

Introduction

Phospholipase C (PLC) catalyzes the hydrolysis of phosphatidylinositol 4,5-bisphosphate [IP2] to the second messengers inositol 1,4,5-trisphosphate [IP3] and diacylglycerol [DAG] in an essential step for many physiological cascades. When the receptor is stimulated by ligand of some kind it increase exchange of guanosine diphosphate (GDP) for guanosine triphosphate (GTP) on Gαq. GTP-bound Gαq activates PLC- β3, and PLC- β3 increases up to three orders of magnitude the rate of hydrolysis of GTP by its activating G protein. This is a unique mechanism when the PLC-β3 enzyme has the ability to terminate the Gαq protein signal in addition to being activated by it.^[1] ^[2]

Structural highlights

The Gαq subunit consists two domains, one is the GTPase domain and the other is the alpha helical domain. These domains include three regions called .

consisting of N-terminal PH domain, a series of four EF hands, a catalytic TIM barrel that the X/Y linker connect its two halves and a C2 domain.

PLC- β3 engages Gαq throughout three regions. First, an extended loop between the third and fourth EF hands of PLC- β3 directly supports switch residues critical for GTP hydrolysis by Gαq. Second, the region of PLC- β3 that connects the catalytic TIM barrel and the C2 domain interacts with both switches 1 and 2 of Gαq. Third, a segment composed of a helix-turn-helix at the C terminus of the C2 domain mostly located within a shallow declivity on the surface of Gαq formed by switch 2 and α3.

PLC-β3 interacts with a surface on Gαq that with portions of Gα subunits needed for engagement of RGS proteins and the effector-binding region. Other effectors are known to engage the within Gα subunits. There are a large family of regulator of G protein signaling (RGS) proteins that independently accelerates the GTP hydrolysis in the .

This is a sample scene created with SAT to by Group, and another to make of the protein. You can make your own scenes on SAT starting from scratch or loading and editing one of these sample scenes.

References

↑ Waldo GL, Ricks TK, Hicks SN, Cheever ML, Kawano T, Tsuboi K, Wang X, Montell C, Kozasa T, Sondek J, Harden TK. Kinetic Scaffolding Mediated by a Phospholipase C-{beta} and Gq Signaling Complex. Science. 2010 Nov 12;330(6006):974-80. Epub 2010 Oct 21. PMID:20966218 doi:10.1126/science.1193438
↑ Lyon AM, Tesmer JJ. Structural insights into phospholipase C-beta function. Mol Pharmacol. 2013 Oct;84(4):488-500. doi: 10.1124/mol.113.087403. Epub 2013 Jul, 23. PMID:23880553 doi:http://dx.doi.org/10.1124/mol.113.087403

Proteopedia Page Contributors and Editors (what is this?)

Shir Navot, Joel L. Sussman, Michal Harel

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Revision as of 07:53, 14 May 2015 (edit) Shir Navot (Talk \| contribs) ← Previous diff		Revision as of 08:02, 14 May 2015 (edit) (undo) Shir Navot (Talk \| contribs) Next diff →
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	PLC- β3 engages Gαq throughout three regions. First, an extended loop between the third and fourth EF hands of PLC- β3 directly supports switch residues critical for GTP hydrolysis by Gαq. Second, the region of PLC- β3 that connects the catalytic TIM barrel and the C2 domain interacts with both switches 1 and 2 of Gαq. Third, a segment composed of a helix-turn-helix at the C terminus of the C2 domain mostly located within a shallow declivity on the surface of Gαq formed by switch 2 and α3.		PLC- β3 engages Gαq throughout three regions. First, an extended loop between the third and fourth EF hands of PLC- β3 directly supports switch residues critical for GTP hydrolysis by Gαq. Second, the region of PLC- β3 that connects the catalytic TIM barrel and the C2 domain interacts with both switches 1 and 2 of Gαq. Third, a segment composed of a helix-turn-helix at the C terminus of the C2 domain mostly located within a shallow declivity on the surface of Gαq formed by switch 2 and α3.

-	PLC-β3 interacts with a surface on Gαq that overlaps almost completely with portions of Gα subunits needed for engagement of RGS proteins and the effector-binding region. Other effectors are known to engage the <scene name='70/701452/Fig3/1'>effector-binding site</scene> within Gα subunits. There are a large family of regulator of G protein signaling (RGS) proteins that independently accelerates the GTP hydrolysis in the <scene name='70/701452/Fig4/1'>GTPase domain</scene>.	+	PLC-β3 interacts with a surface on Gαq that <scene name='70/701452/Fig5/1'>overlaps almost completely</scene> with portions of Gα subunits needed for engagement of RGS proteins and the effector-binding region. Other effectors are known to engage the <scene name='70/701452/Fig3/1'>effector-binding site</scene> within Gα subunits. There are a large family of regulator of G protein signaling (RGS) proteins that independently accelerates the GTP hydrolysis in the <scene name='70/701452/Fig4/1'>GTPase domain</scene>.

PLC beta 3 Gq

From Proteopedia

Revision as of 08:02, 14 May 2015

Unique bidirectional interactions of Phospholipase C beta 3 with G alpha Q

Introduction

Structural highlights

References

Proteopedia Page Contributors and Editors (what is this?)

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