Purification and thermal and high-pressure inactivation of pectinmethylesterase isoenzymes from tomatoes (Lycopersicon esculentum): a novel pressure labile isoenzyme

Mechanisms of persimmon pectin methyl esterase activation by high pressure processing based on chemical experiments and molecular dynamics simulations

High pressure processing (HPP) was found to have a kinase effect on persimmon pectin methyl esterase (PME), while the mechanism remains unclear. In this study, chemical experiments and molecular dynamics (MD) simulations were used to reveal its mechanisms. Persimmon PME was first extracted and purified using ion exchange columns with 81.89% purity. After 500 MPa/5 min, PME activity increased 11.3%, the α-helix and β-folding decreased 10.8% and 6.1% compared to the 0.1 MPa group, respectively. MD results showed that HPP decreased the volume, increased the number of hydrogen bonds between PME and pectin. Under high pressure, Asp-157, Asp-136 and Gln-135 in the enzyme activity center remained stable, while the positions of Arg-225 and Gln-113 changed a lot. The conformation of the substrate binding channel also changed. The secondary structure and volume changes of the HPP-treated PME affected the active center and substrate channels, ultimately altering the activity.

Development and evaluation of monoclonal antibodies as probes to assess the differences between two tomato pectin methylesterase isoenzymes

The enzyme pectin methylesterase (PME) was purified from red ripe tomatoes (Lycopersicon esculentum) and through affinity chromatography two isoenzymes were fractionated (t1PME and t2PME). Further analysis of these two isoenzymes, both having a molar mass of 34.5kDa, revealed a difference in the N-terminal sequence and in amino acid composition. t1PME was identified as the major isoenzyme of PME in tomato fruit. In this study the aim was to develop a toolbox, consisting of monoclonal antibodies, that allows to gain insight into the in situ localization of PME in plant based food systems like tomatoes. A panel of six interesting monoclonal antibodies was raised against both isoenzymes, designated MA-TOM1-12E11, MA-TOM1-41B2, MA-TOM2-9H8, MA-TOM2-20G7, MA-TOM2-31H1 and MA-TOM2-38A11. The differences in epitopes between these monoclonal antibodies were determined using affinity tests towards denatured PME, cross-reactivity tests and inhibition tests. Characterization of these antibodies indicated an immunological difference between t1PME and t2PME, also revealing a conserved epitope on t2PME, carrot PME and strawberry PME. Different epitopes are recognized by the generated antibodies making them excellent probes for immunolocalization of PME by tissue printing. In tomato, t1PME and t2PME showed a pronounced co-localization, especially in the pericarp and the radial arms of the pericarp. Three of the generated antibodies could be used for immunolocalization of PME in carrots (Daucus carota L.), which was only present in the cortex and not in the vascular cylinder of carrots.