<p><b>A.</b> Superoxide radical inhibition, <b>B.</b> Hydroxyl radical inhibition, <b>C</b>. Hypochlorous radical scavenging, <b>D.</b> Singlet oxygen radical scavenging. The results are the mean ± S.D. of six parallel measurements. *p < 0.05, **p < 0.01 and ***p < 0.001 vs. control.</p
Hydroxyl radical (•OH) is one of most important player in oxidative stress; because, •OH...
a<p>Values are the mean ± SD; n = 3.</p>b<p>Compounds <b>17</b>, <b>19</b>, <b>22</b> and <b>23</b> ...
<p>Percentage inhibition for scavenging capacity of WSM, assayed with three different methods. i.e. ...
<p><b>A.</b> Nitric oxide inhibition, <b>B.</b> Peroxynitrite radical scavenging. The results are th...
<p>(A) Hydroxyl radical inhibition, (B) hypochlorous radical scavenging, (C) superoxide radical inhi...
<p><b>A.</b> Total antioxidant assay, <b>B.</b> Reducing power assay, <b>C</b>. DPPH scavenging assa...
<p>(A) Nitric oxide inhibition, (B) peroxynitrite radical scavenging. The results are mean ± S.D. of...
<p>Data are expressed as the mean ± SEM of three parallel experiments. The <i>P</i> value showed the...
<p>(A) total antioxidant activity, (B) DPPH radical scavenging, (C) reducing power activity. The res...
<p>The reaction was initialized by addition of hydrogen peroxide and was incubated at 37°C for 60 mi...
<p>Data are shown as IC<sub>50</sub> (l<i> µ</i>M). The hydroxyl radical-scavenging properties of di...
<p>The results are mean ± S.D. of six parallel measurements. **p<0.01 and ***p<0.001 vs. 0 µg/ml.</p
Hydroxyl radical (•OH) is the most reactive species of reactive oxygen species (ROS); therefor...
<p>Bars in same concentration without same superscripts (a–f) differ significantly (<i>P</i> < 0.05)...
(A) Root superoxide content. (B) relative superoxide contents calculated from mean pixel densities o...
Hydroxyl radical (•OH) is one of most important player in oxidative stress; because, •OH...
a<p>Values are the mean ± SD; n = 3.</p>b<p>Compounds <b>17</b>, <b>19</b>, <b>22</b> and <b>23</b> ...
<p>Percentage inhibition for scavenging capacity of WSM, assayed with three different methods. i.e. ...
<p><b>A.</b> Nitric oxide inhibition, <b>B.</b> Peroxynitrite radical scavenging. The results are th...
<p>(A) Hydroxyl radical inhibition, (B) hypochlorous radical scavenging, (C) superoxide radical inhi...
<p><b>A.</b> Total antioxidant assay, <b>B.</b> Reducing power assay, <b>C</b>. DPPH scavenging assa...
<p>(A) Nitric oxide inhibition, (B) peroxynitrite radical scavenging. The results are mean ± S.D. of...
<p>Data are expressed as the mean ± SEM of three parallel experiments. The <i>P</i> value showed the...
<p>(A) total antioxidant activity, (B) DPPH radical scavenging, (C) reducing power activity. The res...
<p>The reaction was initialized by addition of hydrogen peroxide and was incubated at 37°C for 60 mi...
<p>Data are shown as IC<sub>50</sub> (l<i> µ</i>M). The hydroxyl radical-scavenging properties of di...
<p>The results are mean ± S.D. of six parallel measurements. **p<0.01 and ***p<0.001 vs. 0 µg/ml.</p
Hydroxyl radical (•OH) is the most reactive species of reactive oxygen species (ROS); therefor...
<p>Bars in same concentration without same superscripts (a–f) differ significantly (<i>P</i> < 0.05)...
(A) Root superoxide content. (B) relative superoxide contents calculated from mean pixel densities o...
Hydroxyl radical (•OH) is one of most important player in oxidative stress; because, •OH...
a<p>Values are the mean ± SD; n = 3.</p>b<p>Compounds <b>17</b>, <b>19</b>, <b>22</b> and <b>23</b> ...
<p>Percentage inhibition for scavenging capacity of WSM, assayed with three different methods. i.e. ...
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