philoxeroides increased with increasing Cr levels in the nutrient

philoxeroides increased with increasing Cr levels in the nutrient solution. The highest Cr concentrations accumulated in shoots and roots were 111.27 and 751.71  mg g−1 DW respectively; when plants were treated with 150 mg l−1 Cr in the solution. The Cr concentrations in roots were much higher than that in shoots. Table 3 depictes the effects of chromium on catalase activity (U/g FW) of leaves of A. philoxeroides at different TSA HDAC nmr concentrations and exposure periods. The activity of catalase was significantly increased in A. philoxeroides seedlings with metal treatments and also catalase activities differed with increasing concentrations of metals as well as different exposure periods ( Fig. 5). The

increased trend of catalase activity (1.634 U/g FW) was observed at 100 mg/l Cr treatment and there was slight decrease in (1.097 U/g FW) at 150 mg/l Cr treatment. The changes occurred in APX activities are depicted in Table 3. The APX activity in leaves was gradually increased in A. philoxeroides seedlings at the higher concentration of

Cr. But the activity was slightly decreased (3.356 U mg−1 protein) at the higher CB-839 concentration of 150 mg/l Cr; however, the activity (1.24 U mg−1 proteins) increased significantly (p < 0.05) in all Cr treatments used as compared to the control ( Fig. 6). The effects of Cr on POX are illustrated in Table 3. Plants exposed to Cr showed an increase in the POX activity in all concentrations used in the present study when compared to the control. However, a significant increase in the activity of POX (10 U mg−1 protein) was observed at 150 mg/l Cr treatment (Fig. 7). Therefore, it seems that a low concentration of Cr (25 mg/l) in the medium was sufficient to activate the antioxidant system which aims to protect plants from heavy metal stress. Table 4 shows for the effect of chromium on catalase, peroxidase and ascorbate peroxidase activity (U/g FW) of root tissues of A. philoxeroides at different concentrations after 12 days treatment. The activity of catalase, peroxidase and ascorbate peroxidase significantly increased in the roots of A. philoxeroides

with increasing metal treatments ( Fig. 8). However the catalase, peroxidase and ascorbate peroxidase activities differed with concentrations. But in the chromium treated plants the highest increase in POD activity was noticed when compared to other enzyme activities. Treatment with different Cr concentrations showed a significant effect on the total soluble content (Fig. 9). Accumulation of total soluble protein content level in leaves showed increased trend in all the concentrations used, however the significant level of protein accumulation noticed was 11.91 and 11.77 mg protein/g fresh wt. with 100 and 150 mg/l Cr treatments, respectively (Table 5). This result indicates that the plant is experiencing heavy metal stress at higher Cr concentrations that triggers various antioxidant enzymes as consequence.

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