primary ROS. Superoxide radical can

primary ROS. Superoxide radical can further interact with other
molecules to generate secondary ROS (e.g., hydroxyl radical, hydrogen
peroxide and singlet oxygen), either directly or prevalently
through enzyme or metal catalyzed processes (Valko et al., 2007).
As a result, the formation of superoxide radical could induce oxidative
damage in lipids, proteins and DNA. The superoxide radical
scavenging activities of ethanolic extract and Vc are shown in
Fig. 2A. The scavenging activities of all samples were correlated
well with the increase of concentrations, and the scavenging activity
of Vc was higher than that of ethanolic extract (p < 0.05). At the
concentration of 5 mg/mL, the scavenging activity for ethanolic extract
and Vc was 43.97% and 93.62%, respectively. And the IC50 values
for ethanolic extract and Vc were 8.08 and 0.30 mg/mL,
respectively. Till now, only a few investigators focused on the
superoxide radical scavenging activity of A. bisporus (Elmastas
et al., 2007). The results obtained herein was lower than methanolic
extract of A. bisporus (30 lg/ml) from Turkey (Elmastas et al.,
2007), however, almost the same as the ethanolic extract of Pleurotus
ostreatus (8 mg/mL) from India (Jayakumar et al., 2009). These
suggested that the mushroom A. bisporus can be considered as a
good scavenger of superoxide radical.