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PDBsum entry 3dba
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References listed in PDB file
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Key reference
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Title
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The structure of the gaf a domain from phosphodiesterase 6c reveals determinants of cgmp binding, A conserved binding surface, And a large cgmp-Dependent conformational change.
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Authors
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S.E.Martinez,
C.C.Heikaus,
R.E.Klevit,
J.A.Beavo.
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Ref.
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J Biol Chem, 2008,
283,
25913-25919.
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PubMed id
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Abstract
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The photoreceptor phosphodiesterase (PDE6) regulates the intracellular levels of
the second messenger cGMP in the outer segments of cone and rod photoreceptor
cells. PDE6 contains two regulatory GAF domains, of which one (GAF A) binds cGMP
and regulates the activity of the PDE6 holoenzyme. To increase our understanding
of this allosteric regulation mechanism, we present the 2.6A crystal structure
of the cGMP-bound GAF A domain of chicken cone PDE6. Nucleotide specificity
appears to be provided in part by the orientation of Asn-116, which makes two
hydrogen bonds to the guanine ring of cGMP but is not strictly conserved among
PDE6 isoforms. The isolated PDE6C GAF A domain is monomeric and does not contain
sufficient structural determinants to form a homodimer as found in full-length
PDE6C. A highly conserved surface patch on GAF A indicates a potential binding
site for the inhibitory subunit Pgamma. NMR studies reveal that the apo-PDE6C
GAF A domain is structured but adopts a significantly altered structural state
indicating a large conformational change with rearrangement of secondary
structure elements upon cGMP binding. The presented crystal structure will help
to define the cGMP-dependent regulation mechanism of the PDE6 holoenzyme and its
inhibition through Pgamma binding.
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