Top Module Empty

Bookmark Us




Print E-mail
PH Domain
Class:Phospholipid binding
Structure:

No ImageDespite unusually divergent primary sequences, PH domains share a conserved fold made up of a b-barrel composed of two roughly perpendicular, anti-parallel beta-sheets and a C-terminal alpha amphipathic -helix. PH domains bind to their inositol phosphate ligands via a binding surface composed primarily of residues from the beta1/beta2, beta3/beta4, and beta6/beta7 loops. Basic residues in the beta1-beta2 loop are especially important for binding the phosphatidylinositide phosphates, by establishing a positive electric potential on the face of the PH domain. Comparison of different PH domains with distinct phosphoinosite binding specificities has revealed insights into what structural features dictate binding specificity. For example, a tyrosine residue located in the beta-strand is strictly conserved in PH domains that bind PI3- kinase products with high affinity but not in other PH domains. Interestingly, PH domains have a strikingly similar structure to PTB domains, the Enabled / Vasp homology (EVH1/WH1) and the Ran-binding domain (RanBD) of RBP2, despite the absence of any sequence homology. The figure shows the complex between the PH domain of Phospholipase C-d and inositol-(1,4,5)-trisphosphate (red).

Structure Reference:
Ferguson, KM. et al. (1995) Cell. 83(6): 1037-46. PDB: 1MAI.
 

Domain binding and function:
Pleckstrin-homology (PH) domains are structurally well-characterized modules of ~120 amino acids and found in a wide variety of signaling proteins that are involved intracellular trafficking, cellular signaling and cytoskeletal remodeling.  Of some 250 PH domains in the human proteome, all PH domains share a common core fold consisting of a 7-stranded β-sandwich formed from two near-orthogonal β-sheets.   The basic residues in the β1/β2 loop of the PH domain forms a well-defined binding site with the phosphates in the headgroup of phosphoionositides.  Some PH domains bind with high affinity (low ÁM or nM Kd) to specific phosphoinositides such as phosphatidylinositol- 4,5-bisphosphate, PI-3, 4-P2 or PI-3,4,5-P3. Binding to phosphoinositides may allow PH proteins to respond to lipid messengers for example by cellular localization to membranes and transmitting signals to downstream targets.  
Examples of Proteins: 
PH domain protein
Specific Phosphoinositide Ligand

Phospholipase C ; mSos1;
RasGAP; Tsk, pleckstrin

PI-4,5-P2
Btk Tyr Kinase; Grp1 PI-3,4,5-P3
Akt/PKB; DAPP1; TAPP1
PI-3,4-P2



No Image

 
< Prev   Next >
© 2016 The Pawson Lab
Joomla! is Free Software released under the GNU/GPL License.