PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32809827-0	2020	A Novel Redox Modulator Induces a GPX4-Mediated Cell Death That Is Dependent on Iron and Reactive Oxygen Species.	Iron	80-84	glutathione peroxidase 4	Homo sapiens	34-38	
32809827-0	2020	A Novel Redox Modulator Induces a GPX4-Mediated Cell Death That Is Dependent on Iron and Reactive Oxygen Species.	Reactive Oxygen Species	89-112	glutathione peroxidase 4	Homo sapiens	34-38	
32809827-5	2020	Moreover, QD394 causes an iron- and ROS-dependent, GPX4 mediated cell death, suggesting ferroptosis as a major mechanism.	qd394	10-15	glutathione peroxidase 4	Homo sapiens	51-55	
32809827-5	2020	Moreover, QD394 causes an iron- and ROS-dependent, GPX4 mediated cell death, suggesting ferroptosis as a major mechanism.	Iron	26-30	glutathione peroxidase 4	Homo sapiens	51-55	
32809827-5	2020	Moreover, QD394 causes an iron- and ROS-dependent, GPX4 mediated cell death, suggesting ferroptosis as a major mechanism.	Reactive Oxygen Species	36-39	glutathione peroxidase 4	Homo sapiens	51-55	
32809827-6	2020	Importantly, QD394 decreases the expression of LRPPRC and PNPT1, two proteins involved in mitochondrial RNA catabolic processes and both negatively correlated with the overall survival of pancreatic cancer patients.	qd394	13-18	leucine rich pentatricopeptide repeat containing	Homo sapiens	47-53	
32809827-6	2020	Importantly, QD394 decreases the expression of LRPPRC and PNPT1, two proteins involved in mitochondrial RNA catabolic processes and both negatively correlated with the overall survival of pancreatic cancer patients.	qd394	13-18	polyribonucleotide nucleotidyltransferase 1	Homo sapiens	58-63