a toxic metal in soils that inhibits plant root elongation, can be modulated by PME activity, overexpression of PME activity leads to increases in aluminium content in the plant, which correlates to reductions in the degree of pectin methylesterification, overview
a toxic metal in soils that inhibits plant root elongation, can be modulated by PME activity, overexpression of PME activity leads to increases in aluminium content in the plant, which correlates to reductions in the degree of pectin methylesterification, overview
a toxic metal in soils that inhibits plant root elongation, can be modulated by PME activity, overexpression of PME activity leads to increases in aluminium content in the plant, which correlates to reductions in the degree of pectin methylesterification, overview
a toxic metal in soils that inhibits plant root elongation, can be modulated by PME activity, overexpression of PME activity leads to increases in aluminium content in the plant, which correlates to reductions in the degree of pectin methylesterification, overview
the activity of the enzyme increases with increase in the concentration of K+, further increase in concentration results in the decline of the enzyme activity
the activity of the enzyme increases with increase in the concentration of Na+, further increase in concentration results in the decline of the enzyme activity
required, at 0.8 M. Without added NaCl, protein activity is highly reduced. At pH 7.0 and above in the presence of 100 mM NaCl, Ani-PME2 is nearly inactive
highest activity in the presence of 1 M NaCl. No enzyme activity (assayed at pH 7.0) is detected in salt-free water washes of pulp (measured at pH 3.8)
apricot PME activity is dependent on NaCl. With NaCl concentration increasing in the assay mixture, the PME activity increases gradually and reaches the maximum level at 0.15 M