2qcs

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(New page: 200px<br /><applet load="2qcs" size="350" color="white" frame="true" align="right" spinBox="true" caption="2qcs, resolution 2.20&Aring;" /> '''A complex structure ...)
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==Overview==
==Overview==
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Protein kinase A (PKA) holoenzyme is one of the major receptors for cyclic, adenosine monophosphate (cAMP), where an extracellular stimulus is, translated into a signaling response. We report here the structure of a, complex between the PKA catalytic subunit and a mutant RI regulatory, subunit, RIalpha(91-379:R333K), containing both cAMP-binding domains. Upon, binding to the catalytic subunit, RI undergoes a dramatic conformational, change in which the two cAMP-binding domains uncouple and wrap around the, large lobe of the catalytic subunit. This large conformational, reorganization reveals the concerted mechanism required to bind and, inhibit the catalytic subunit. The structure also reveals a, holoenzyme-specific salt bridge between two conserved residues, Glu261 and, Arg366, that tethers the two adenine capping residues far from their, cAMP-binding sites. Mutagenesis of these residues demonstrates their, importance for PKA activation. Our structural insights, combined with the, mutagenesis results, provide a molecular mechanism for the ordered and, cooperative activation of PKA by cAMP.
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Protein kinase A (PKA) holoenzyme is one of the major receptors for cyclic adenosine monophosphate (cAMP), where an extracellular stimulus is translated into a signaling response. We report here the structure of a complex between the PKA catalytic subunit and a mutant RI regulatory subunit, RIalpha(91-379:R333K), containing both cAMP-binding domains. Upon binding to the catalytic subunit, RI undergoes a dramatic conformational change in which the two cAMP-binding domains uncouple and wrap around the large lobe of the catalytic subunit. This large conformational reorganization reveals the concerted mechanism required to bind and inhibit the catalytic subunit. The structure also reveals a holoenzyme-specific salt bridge between two conserved residues, Glu261 and Arg366, that tethers the two adenine capping residues far from their cAMP-binding sites. Mutagenesis of these residues demonstrates their importance for PKA activation. Our structural insights, combined with the mutagenesis results, provide a molecular mechanism for the ordered and cooperative activation of PKA by cAMP.
==About this Structure==
==About this Structure==
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[[Category: Protein complex]]
[[Category: Protein complex]]
[[Category: cAMP-dependent protein kinase]]
[[Category: cAMP-dependent protein kinase]]
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[[Category: Cheng, C.Y.]]
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[[Category: Cheng, C Y.]]
[[Category: Kim, C.]]
[[Category: Kim, C.]]
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[[Category: Saldanha, A.S.]]
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[[Category: Saldanha, A S.]]
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[[Category: Taylor, S.S.]]
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[[Category: Taylor, S S.]]
[[Category: ACT]]
[[Category: ACT]]
[[Category: ANP]]
[[Category: ANP]]
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[[Category: transferase/transferase inhibitor complex]]
[[Category: transferase/transferase inhibitor complex]]
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Wed Jan 23 12:23:21 2008''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 18:38:12 2008''

Revision as of 16:38, 21 February 2008

Image:2qcs.jpg

2qcs, resolution 2.20Å

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A complex structure between the Catalytic and Regulatory subunit of Protein Kinase A that represents the inhibited state

Overview

Protein kinase A (PKA) holoenzyme is one of the major receptors for cyclic adenosine monophosphate (cAMP), where an extracellular stimulus is translated into a signaling response. We report here the structure of a complex between the PKA catalytic subunit and a mutant RI regulatory subunit, RIalpha(91-379:R333K), containing both cAMP-binding domains. Upon binding to the catalytic subunit, RI undergoes a dramatic conformational change in which the two cAMP-binding domains uncouple and wrap around the large lobe of the catalytic subunit. This large conformational reorganization reveals the concerted mechanism required to bind and inhibit the catalytic subunit. The structure also reveals a holoenzyme-specific salt bridge between two conserved residues, Glu261 and Arg366, that tethers the two adenine capping residues far from their cAMP-binding sites. Mutagenesis of these residues demonstrates their importance for PKA activation. Our structural insights, combined with the mutagenesis results, provide a molecular mechanism for the ordered and cooperative activation of PKA by cAMP.

About this Structure

2QCS is a Protein complex structure of sequences from Bos taurus and Mus musculus with , , , , and as ligands. Active as cAMP-dependent protein kinase, with EC number 2.7.11.11 Full crystallographic information is available from OCA.

Reference

PKA-I holoenzyme structure reveals a mechanism for cAMP-dependent activation., Kim C, Cheng CY, Saldanha SA, Taylor SS, Cell. 2007 Sep 21;130(6):1032-43. PMID:17889648

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