Functional Analysis of the GPI Transamidase Complex by Screening for Amino Acid Mutations in Each Subunit

Glycosylphosphatidylinositol (GPI) anchor modification is a posttranslational modification of proteins that has been conserved in eukaryotes. The biosynthesis and transfer of GPI to proteins are carried out in the endoplasmic reticulum. Attachment of GPI to proteins is mediated by the GPI-transamidase (GPI-TA) complex, which recognizes and cleaves the C-terminal GPI attachment signal of precursor proteins. Then, GPI is transferred to the newly exposed C-terminus of the proteins. GPI-TA consists of five subunits: PIGK, GPAA1, PIGT, PIGS, and PIGU, and the absence of any subunit leads to the loss of activity. Here, we analyzed functionally important residues of the five subunits of GPI-TA by comparing conserved sequences among homologous proteins. In addition, we optimized the purification method for analyzing the structure of GPI-TA. Using purified GPI-TA, preliminary single particle images were obtained. Our results provide guidance for the structural and functional analysis of GPI-TA.

Automated summary

Glycosylphosphatidylinositol (GPI) anchor modification is a conserved posttranslational protein modification in eukaryotes, mediated by the GPI-transamidase (GPI-TA) complex. Functional residues of the five subunits of GPI-TA were analyzed by comparing conserved sequences among homologous proteins, and the purification method for studying its structure was optimized. Preliminary single particle images were obtained using purified GPI-TA, providing guidance for structural and functional analysis.