PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
24297047-8	2014	Angiostatin treatment, before or after LPS-induced neutrophil activation, inhibited phosphorylation of p38 and p44/42 MAPKs, abolished reactive oxygen species production and released the neutrophils from suppressed apoptosis, as indicated by expression of activated caspase-3 and morphological evidence of apoptosis.	Reactive Oxygen Species	135-158	plasminogen	Mus musculus	0-11	
14651966-8	2003	These results suggest that plasminogen activates microglia via stimulation of ROS production.	Reactive Oxygen Species	78-81	plasminogen	Mus musculus	27-38	
14651966-0	2003	Plasminogen-induced IL-1beta and TNF-alpha production in microglia is regulated by reactive oxygen species.	Reactive Oxygen Species	83-106	plasminogen	Mus musculus	0-11	
14651966-6	2003	Reactive oxygen species (ROS) appeared to play an important role in plasminogen-induced microglial activation, with ROS being generated within 15min of plasminogen treatment, and antioxidants (100 microM trolox and 10mM NAC) reducing IL-1beta and TNF-alpha expression in plasminogen-treated cells.	Reactive Oxygen Species	0-23	plasminogen	Mus musculus	68-79	
14651966-6	2003	Reactive oxygen species (ROS) appeared to play an important role in plasminogen-induced microglial activation, with ROS being generated within 15min of plasminogen treatment, and antioxidants (100 microM trolox and 10mM NAC) reducing IL-1beta and TNF-alpha expression in plasminogen-treated cells.	Reactive Oxygen Species	0-23	plasminogen	Mus musculus	152-163	
14651966-6	2003	Reactive oxygen species (ROS) appeared to play an important role in plasminogen-induced microglial activation, with ROS being generated within 15min of plasminogen treatment, and antioxidants (100 microM trolox and 10mM NAC) reducing IL-1beta and TNF-alpha expression in plasminogen-treated cells.	Reactive Oxygen Species	0-23	plasminogen	Mus musculus	152-163	
14651966-6	2003	Reactive oxygen species (ROS) appeared to play an important role in plasminogen-induced microglial activation, with ROS being generated within 15min of plasminogen treatment, and antioxidants (100 microM trolox and 10mM NAC) reducing IL-1beta and TNF-alpha expression in plasminogen-treated cells.	Reactive Oxygen Species	25-28	plasminogen	Mus musculus	68-79	
14651966-6	2003	Reactive oxygen species (ROS) appeared to play an important role in plasminogen-induced microglial activation, with ROS being generated within 15min of plasminogen treatment, and antioxidants (100 microM trolox and 10mM NAC) reducing IL-1beta and TNF-alpha expression in plasminogen-treated cells.	Reactive Oxygen Species	116-119	plasminogen	Mus musculus	68-79