Title : Crystallographic studies of ligand binding by
Zn-alpha2-glycoprotein
Abstract :
- Zn-alpha2-glycoprotein ( ZAG ) is a 41 kDa soluble protein that is present in most bodily fluids
- The previously reported 2.8 A crystal structure of ZAG isolated from human serum demonstrated the structural similarity between ZAG and class I major histocompatibility complex (MHC) molecules and revealed a non-peptidic ligand in the ZAG counterpart of the MHC peptide-binding groove
- Here we present crystallographic studies to explore further the nature of the non-peptidic ligand in the ZAG groove
- Comparison of the structures of several forms of recombinant ZAG , including a 1.95 A structure derived from ZAG expressed in insect cells, suggests that the non-peptidic ligand in the current structures and in the structure of serum ZAG is a polyethylene glycol ( PEG ), which is present in the crystallization conditions used
- Further support for PEG binding in the ZAG groove is provided by the finding that PEG displaces a fluorophore-tagged fatty acid from the ZAG binding site
- From these results we hypothesize that our purified forms of ZAG do not contain a bound endogenous ligand, but that the ZAG groove is capable of binding hydrophobic molecules, which may relate to its function