young, growing leaves, middle, fully expanded leaves or old, senescing leaves. Despite constitutive expression of the enzyme during most stages of plant development, Brassica juncea may react to prolonged exposure to CD2+ with an increase of phytochelatin synthase protein in leaves
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS1 is synthesized in roots, shoots and developing seeds
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS1 is synthesized in roots, shoots and developing seeds
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS1 is synthesized in roots, shoots and developing seeds
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS2a and OsPCS2b are synthesized in roots, shoots and developing seeds, albeit at different level
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS2a and OsPCS2b are synthesized in roots, shoots and developing seeds, albeit at different level
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS2a and OsPCS2b are synthesized in roots, shoots and developing seeds, albeit at different level
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS2a and OsPCS2b are synthesized in roots, shoots and developing seeds, albeit at different level
root- and shoot-specific differential ratios of alternatively spliced OsPCS2a and OsPCS2b transcript expressions are observed under cadmium stress. OsPCS1 is synthesized in roots, shoots and developing seeds
the expression level of isozyyme OsPCS2 is higher than that of isozyme OsPCS1 in the shoots and roots of rice plants. The expression pattern of OsPCS1 splice variants is not changed by Cd or As stress in both shoots and roots
the expression level of isozyyme OsPCS2 is higher than that of isozyme OsPCS1 in the shoots and roots of rice plants. The expression pattern of OsPCS1 splice variants is not changed by Cd or As stress in both shoots and roots