Bowman SM, Piwowar A, Arnone ED, Matsumoto R, Koudelka GB, Free SJ. Characterization of GPIT-1 and GPIT-2, two auxiliary components of the Neurospora crassa GPI transamidase complex.
Mycologia 2009;
101:764-72. [PMID:
19927742 DOI:
10.3852/09-022]
[Citation(s) in RCA: 2] [Impact Index Per Article: 0.1] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/10/2022]
Abstract
The glycosylphosphatidylinositol (GPI) transamidase contains five known subunits and functions in the lumen of the ER to produce GPI-anchored proteins. The transamidase cleaves proteins containing a GPI anchor attachment signal at their C terminus and generates an amide bond between the newly generated carboxyl terminus of the protein and a GPI anchor. We have identified and characterized GPIT-1 and GPIT-2, two of the transamidase subunits from Neurospora crassa. GPIT-1 and GPIT-2 are homologs of the human PIG-T and PIG-U transamidase subunits respectively. We demonstrated that GPIT-2 is required for the addition of GPI anchors onto GPI-anchored proteins. We employed the Neurospora RIP (repeat-induced point mutation) phenomenon to generate 106 "noncritical" amino acid changes in GPIT-1 and 84 "noncritical" amino acid changes in GPIT-2. We used the data to evaluate three-dimensional models for the structures of GPIT-1 and GPIT-2. The mutational data for GPIT-1 is consistent with a multiple-blade propeller structure containing a central channel. The mutational analysis for GPIT-2 supports a structural model based on the karyopherin alpha subunit.
Collapse