Abstract
Xyloglucan endotransglycosylase/hydrolases (XTHs) are cell wall enzymes with hydrolase (XEH) and/or endotransglycosylase (XET) activities. As they are involved in the modification of the xyloglucans, a type of hemicellulose present in the cell wall, they are believed to be very important in different processes, including growth, development, and fruit ripening. Previous studies suggest that XTHs might play a key role in development and ripening of Fragaria chiloensis fruit, and its characterization is pending. Therefore, in order to provide a biochemical characterization of the FcXTH2 enzyme to explain its possible role in strawberry development, the molecular cloning and the heterologous expression of FcXTH2 were performed. The recombinant FcXTH2 was active and displayed mainly XEH activity. The optimal pH and temperature are 5.5 and 37 °C, respectively. A KM value of 0.029 mg mL−1 was determined. Additionally, its protein structural model was built through comparative modeling methodology. The model showed a typically β-jelly-roll type folding in which the catalytic motif was oriented towards the FcXTH2 central cavity. Using molecular docking, protein-ligand interactions were explored, finding better interaction with xyloglucan than with cellulose. The data provided groundwork for understanding, at a molecular level, the enzymatic mechanism of FcXTH2, an important enzyme acting during the development of the Chilean strawberry.
Highlights
Plant cell growth and morphogenesis are strongly dependent on the dynamic structure of the primary plant cell wall
The complete FcXTH2 sequence was amplified from a cDNA prepared from young leaves
According to the optimal pH described for FcXTH2 activity, it is possible that FcXTH2 enzyme can be involved in the fruit growth
Summary
Plant cell growth and morphogenesis are strongly dependent on the dynamic structure of the primary plant cell wall. Plant cell wall is composed mainly by three carbohydrate polymers: cellulose, pectins, and hemicellulose—in addition to structural proteins and ions. For example: the backbone sugar of the xylan is β-1,4-D-Xyl (xylose), that of the mannans is β-1,4-DMan (manose), in the xyloglucans the backbone is formed by β-1,4-D-Glc (glucose), while in glucomannans the backbone consists of randomly dispersed β-1,4-Glc and β-1,4-Man sugars These hemicellulose backbones are decorated with a variety of acetyl groups and sugars [3]. Pectins are the other main components of plant cell wall. The cell wall undergoes dynamic remodeling during plant growth and development [8,9], including fruit development and ripening [10]
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