Abstract
A unique feature of plant aspartic proteinase precursors is the presence of an internal domain, known as plant-specific insert, whose function is not completely understood. The three-dimensional structure of the plant-specific insert resembles that of saposin-like proteins, a group of lipid-binding proteins involved in a variety of physiological processes. Here we show that recombinant plant-specific insert is able to interact with phospholipid vesicles and to induce leakage of their contents in a pH- and lipid-dependent manner. The leakage activity is higher at pH 4.5 and requires the presence of acidic phospholipids such as phosphatidylserine. To determine whether the same effect could be observed when the plant-specific insert is part of the precursor form, procardosin A and a mutant form lacking this specific domain were produced and characterized. Procardosin A displays a similar activity profile, whereas the mutant without the plant-specific insert shows only residual activity. These findings indicate that the plant-specific insert domain of plant aspartic proteinases mediates an interaction of their precursors with phospholipid membranes and induces membrane permeabilization. It is therefore possible that the plant-specific insert, alone or in conjunction with the proteolytic activity of plant aspartic proteinases, may function either as a defensive weapon against pathogens or in late autolysis of plant cells.
Highlights
A unique feature of plant aspartic proteinase precursors is the presence of an internal domain, known as plant-specific insert, whose function is not completely understood
The hydrophobic conserved residues are located in the interior of the globular domain, whereas solvent-exposed side chains are those belonging to less conserved amino acid residues in the saposin-like proteins (SAPLIPs) family [9]
Construction of the Expression Vector for Recombinant PSI—The sequence coding for the plant-specific insert of procardosin A was amplified by PCR using as a template a full-length precursor cDNA clone of cardosin A, obtained by the method described in Faro et al [8]
Summary
Construction of the Expression Vector for Recombinant PSI—The sequence coding for the plant-specific insert of procardosin A was amplified by PCR using as a template a full-length precursor cDNA clone of cardosin A, obtained by the method described in Faro et al [8]. The expression of the proteins was induced by the addition of isopropyl-1thio--D-galactopyranoside to a final concentration of 0.5 mM, and the incubation at 30 °C was continued for an additional 2–3 h After this period the cells were pelleted by centrifugation for 25 min at 3000 ϫ g and resuspended in 50 mM Tris-HCl, pH 7.2, 0.15 M NaCl (TN buffer). The spectra were corrected for the intrinsic fluorescence of buffer and phospholipids (scattering)
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