The role of cell walls and pectins in cation exchange and surface area of plant roots
Abstract
We aimed to assess role of cell walls in formation of cation exchange capacity, surface charge, surface acidity, specific surface, water adsorption energy and surface charge density of plant roots, and to find the input of the cell wall pectins to the above properties. Whole roots, isolated cell walls and the residue after the extraction of pectins from the cell walls of two Apiaceae L. species (celeriac and parsnip) were studied using potentiometric titration curves and water vapor adsorption – desorption isotherms. Total amount of surface charge, as well as the cation exchange capacity were markedly higher in roots than in their cell walls, suggesting large contribution of other cell organelles to the binding of cations by the whole root cells. Significantly lower charge of the residues after removal of pectins was noted indicating that pectins play the most important role in surface charge formation of cell walls. The specific surface was similar for all of the studied materials. For the separated cell walls it was around 10% smaller than of the whole roots, and it increased slightly after the removal of pectins. The surface charge density and water vapor adsorption energy were the highest for the whole roots and the lowest for the cell walls residues after removal of pectins. The results indicate that the cell walls and plasma membranes are jointly involved in root ion exchange and surface characteristics and their contribution depends upon the plant species.
- Publication:
-
Journal of Plant Physiology
- Pub Date:
- August 2017
- DOI:
- 10.1016/j.jplph.2017.05.017
- Bibcode:
- 2017JPPhy.215...85S
- Keywords:
-
- CW;
- cell wall;
- CW-pect;
- cell wall without pectins;
- CEC;
- cation exchange capacity;
- Qtot.;
- total surface charge;
- pKapp;
- apparent dissociation constant;
- S;
- surface area;
- SCD;
- surface charge density;
- Acidity;
- Adsorption;
- Area;
- CEC;
- Charge