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Query: EC:3.1.4.1 (
phosphodiesterase
)
18,767
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
cGMP phosphodiesterase (
PDE
) is the key effector enzyme of vertebrate photoreceptor cells that regulates the level of the second messenger, cGMP.
PDE
consists of catalytic alpha and beta subunits (Palpha and
Pbeta
) and two inhibitory gamma subunits (Pgamma) that block
PDE
activity in the dark. The major inhibitory region has been localized to the C terminus of Pgamma. The last C-terminal residues -IleIle form an important hydrophobic domain critical for the inhibition of
PDE
activity. In this study, mutants of Pgamma were designed for cross-linking experiments to identify regions on Palpha and
Pbeta
subunits that bind to the Pgamma C terminus. In one of the mutants, the cysteine at position 68 was substituted with serine, and the last four C-terminal residues of Pgamma were replaced with a single cysteine. This mutant, Pgamma83Cys, was labeled with photoprobe 4-(N-maleimido) benzophenone (MBP) at the cysteine residue. The labeled Pgamma83CysMBP mutant was a more potent inhibitor of
PDE
activity than the unlabeled mutant, indicating that the hydrophobic MBP probe mimics the Pgamma hydrophobic C terminus. A specific, high-yield cross-linking of up to 70% was achieved between the Pgamma83CysMBP and
PDE
catalytic subunits. Palpha and the N-terminally truncated
Pbeta
(lacking 147 aa residues) cross-linked to Pgamma83CysMBP with the same efficiency. Using mass spectrometric analysis of tryptic fragments from the cross-linked
PDE
, we identified the site of cross-linking to aa residues 751-763 of Palpha. The corresponding region of
Pbeta
,
Pbeta
-749-761, also may bind to the Pgamma C terminus. Our data suggest that Pgamma blocks
PDE
activity through the binding to the catalytic site of
PDE
, near the NKXD motif, a consensus sequence for interaction with the guanine ring of cGMP.
...
PMID:Mechanism of photoreceptor cGMP phosphodiesterase inhibition by its gamma-subunits. 864 88
Cyclic GMP
phosphodiesterase
(
PDE
), a key enzyme for phototransduction, contains two catalytic subunits, Palpha and
Pbeta
, and two identical regulatory subunits, Pgammas. Neither the structure of the subunits of
PDE
nor their changes in structure during
PDE
regulation have been known. Here, improved low angle rotary shadowing was applied to depict the three-dimensional structure of bovine
PDE
(Palphabetagammagamma) and its changes by Pgamma release. Palphabetagammagamma and Palphabetagamma were isolated from photoreceptor membranes after treatment with a hydrolysis-resistant GTP analogue, and Palphabeta was prepared from Palphabetagammagamma tryptic digestion. Images of Palphabetagammagamma consisted of two crooked strands. These two strands faced each other to make a ring shape, but this ring structure was bent at the centre line between the two strands. In Palphabetagamma, one of these strands changed its shape toward reducing the central space of the ring structure. This ring appeared to be more bent at the centre line. In Palphabeta, both strands changed their shape such that the ring structure appeared to be a twisted quasi ring shape. These observations suggest that in Palphabetagammagamma each Pgamma is complexed with a catalytic subunit, and that the shapes of Palpha and
Pbeta
are drastically changed by the Pgamma release. These shape changes are no doubt crucial for various
PDE
regulations, such as activation of cGMP hydrolysis by Palphabeta, interaction of Palphabeta with GARP2 and a GARP2-like protein and cGMP binding to non-catalytic sites on Palphabeta.
...
PMID:Structural change of bovine retinal cGMP phosphodiesterase by release of its gamma subunit: direct imaging by improved low angle rotary shadowing. 1111 Apr 78
Cyclic GMP
phosphodiesterase
(PDE6) in rod photoreceptors, a key enzyme in vertebrate phototransduction, consists of two homologous catalytic subunits (Palpha and
Pbeta
) and two identical regulatory subunits (Pgammas). Pgamma regulates the PDE activity through its direct interaction with transducin. Here, using electron microscopy and image analysis of single particles, we show the three-dimensional organization of the basic form of bovine PDE, Palphabetagammagamma, and compare its average image with those of Pgamma-released PDE. The structure of Palphabetagammagamma appears to be a flattened bell-shape, with dimensions of 150 x 108 x 60A, and with a handle-like protrusion attached to the top of the structure. Except for the protrusion, the organization consists of two homologous structures arranged side by side, with each structure having three distinct regions, showing pseudo twofold symmetry. These characteristics are consistent with a model in which the overall structure of Palphabetagammagamma is determined by hetero-dimerization of Palpha and
Pbeta
, with each subunit consisting of one catalytic and two GAF regions. A comparison of the average image of Palphabetagammagamma with those of Pgamma-released PDE suggests that Pgamma release does not affect the overall structure of Palphabeta, and that the Palphabeta C-terminus, but not Pgamma, is a determinant for the Palphabeta orientation on carbon-coated grids. These observations suggest that the basic structure of PDE does not change during its regulation, which implies that Palphabeta is regulated by its regional interaction with Pgamma.
...
PMID:Three-dimensional structure of non-activated cGMP phosphodiesterase 6 and comparison of its image with those of activated forms. 1237 17
Rod
phosphodiesterase
(PDE6) is the central effector enzyme in vertebrate visual transduction. Holo-PDE6 consists of two similar catalytic subunits (Palphabeta) and two identical inhibitory subunits (Pgamma). Palphabeta is the only heterodimer in the PDE superfamily, yet its significance for the function of PDE6 is poorly understood. An unequal interaction of Pgamma with
Pbeta
as compared with Palpha in the PDE6 complex has not been reported. We investigated the interaction interface between full-length Pgamma and Palphabeta, by differentiating Pgamma interaction with each individual Palphabeta subunit through radiolabel transfer from various positions throughout the entire Pgamma molecule. The efficiency of radiolabel transfer indicates that the close vicinity of serine 40 on Pgamma makes a major contribution to the interaction with Palphabeta. In addition, a striking asymmetry of interaction between the Pgamma polycationic region and the Palphabeta subunits was observed when the stoichiometry of Pgamma versus the Palphabeta dimer was below 2. Preferential photolabeling on
Pbeta
from Pgamma position 40 and on Palpha from position 30 increased while lowering the Pgamma/Palphabeta ratio, but diminished when the Pgamma/Palphabeta ratio was over 2. Our finding leads to the conclusion that two classes of Pgamma binding sites exist on Palphabeta, each composed of GAF domains in both Palpha and
Pbeta
, differing from the conventional models suggesting that each Pgamma binds only one of the Palphabeta catalytic subunits. This new model leads to insight into how the unique Palphabeta heterodimer contributes to the sophisticated regulation in visual transduction through interaction with Pgamma.
...
PMID:Asymmetric interaction between rod cyclic GMP phosphodiesterase gamma subunits and alphabeta subunits. 1566 39
