The lysine-rich arabinogalactan-protein subfamily in Arabidopsis: gene expression, glycoprotein purification and biochemical characterization.

AtAGP17, AtAGP18 and AtAGP19 are homologous genes encoding three putative glycosylphosphatidylinositol (GPI)-anchored classical arabinogalactan-proteins (AGPs) in Arabidopsis. They are distinguished from other AGPs by a short, C-terminal lysine-rich region. Organ-specific expression of these genes was revealed by Northern blot analysis. AtAGP17 was strongly expressed in leaves and stems, and weakly expressed in flowers and roots; AtAGP18 was strongly expressed in flowers, and moderately expressed in roots, stems and young leaves; and AtAGP19 was strongly expressed in stems, moderately expressed in flowers and roots, and weakly expressed in young leaves. One of these genes, AtAGP17, was expressed and purified as a green fluorescent protein (GFP) fusion protein in transgenic tobacco cells using hydrophobic interaction chromatography, size exclusion chromatography and reverse phase high-performance liquid chromatography. The fusion (glyco)protein produced a characteristic AGP 'smear' with a molecular mass of 80-150 kDa when detected by Western blot analysis. Glycosyl composition and linkage analyses of purified GFP-AtAGP17 showed that carbohydrate accounted for approximately 86% of the molecule, with arabinose and galactose as major, and rhamnose and glucuronic acid as minor glycosyl residues and with 1,3,6-galactose, 1,4-glucuronic acid, 1,3-galactose and terminal arabinose as major linkages. GFP-AtAGP17 was also precipitated by beta-Yariv reagent, further confirming that AtAGP17 is a bona fide AGP. Confocal fluorescence microscopy of plasmolysed, transformed cells indicated that AtAGP17 is localized on the plasma membrane and in Hechtian strands. Hydroxyproline (Hyp) glycoside profiles of GFP-AtAGP17 in conjunction with the deduced protein sequence also served to corroborate the Hyp contiguity hypothesis, which predicts contiguous Hyp residues as attachment sites for arabinosides and clustered, non-contiguous Hyp residues as attachment sites for arabinogalactan polysaccharides.