Glutathione S-transferase, omega-class (IPR005442)

Short name: GST_omega

Overlapping homologous superfamilies

Family relationships


Glutathione S-transferases (GSTs) are soluble proteins with typical molecular masses of around 50kDa, each composed of two polypeptide subunits. GSTs catalyse the transfer of the tripeptide glutathione (gamma-glutamyl-cysteinyl-glycine; GSH) to a co-substrate (R-X) containing a reactive electrophillic centre to form a polar S-glutathionylated reaction product (R-SG). Each soluble GST is a dimer of approximately 26kDa subunits, typically forming a hydrophobic 50kDa protein with an isoelectric point in the pH range 4-5. The ability to form heterodimers greatly increases the diversity of the GSTs, but the functional significance of this mixing and matching of subunits has yet to be determined. Each GST subunit of the protein dimer contains an independent catalytic site composed of two components. The first is a binding site specific for GSH or a closely related homologue (the G site) formed from a conserved group of amino-acid residues in the amino-terminal domain of the polypeptide. The second component is a site that binds the hydrophobic substrate (the H site), which is much more structurally variable and is formed from residues in the carboxy-terminal domain. Between the two domains is a short variable linker region of 5-10 residues.

The GST proteins have evolved by gene duplication to perform a range of functional roles. GSTs also have non-catalytic roles, binding flavonoid natural products in the cytosol prior to their deposition in the vacuole. Recent studies have also implicated GSTs as components of ultraviolet-inducible cell signalling pathways and as potential regulators of apoptosis.

The mammalian GSTs active in drug metabolism are now classified into the alpha, mu and pi classes. Additional classes of GSTs have been identified in animals that do not have major roles in drug metabolism; these include the sigma GSTs, which function as prostaglandin synthases. In cephalopods, however, sigma GSTs are lens S-crystallins, giving an indication of the functional diversity of these proteins. The soluble glutathione transferases can be divided into the phi, tau, theta, zeta and lambda classes. The theta and zeta GSTs have counterparts in animals, whereas the other classes are plant-specific. In the case of phi and tau GSTs, only subunits from the same class will dimerise. Within a class, however, the subunits can dimerise even if they are quite different in amino-acid sequence. An insect-specific delta class has also been described, and bacteria contain a prokaryote-specific beta class of GST.

Recombinant human omega-class GST shows glutathione-dependent thiol transferase and dehydroascorbate reduction activity. This sort of activity has not been observed in any other class of GSTs, but is associated with the glutaredoxins (thioltransferases). Members of this class of GST have a novel unique N-terminal extension, and a cysteine residue in the active site, which is different from the tyrosine and serine residues found at the active sites of other eukaryotic GSTs [PMID: 10783391].

GO terms

Biological Process

No terms assigned in this category.

Molecular Function

GO:0004364 glutathione transferase activity

Cellular Component

GO:0005737 cytoplasm

Contributing signatures

Signatures from InterPro member databases are used to construct an entry.