PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
26575342-7	2016	The analysis indicates that HNO3 production from the HO2 and NO reaction (if any) must be accompanied by a slower rate for the reaction of OH with NO2, keeping the total combined rate for the two processes at the rate reported for HNO3 production above.	Nitric Acid	28-32	heme oxygenase 2	Homo sapiens	53-56	
26575342-7	2016	The analysis indicates that HNO3 production from the HO2 and NO reaction (if any) must be accompanied by a slower rate for the reaction of OH with NO2, keeping the total combined rate for the two processes at the rate reported for HNO3 production above.	Nitric Acid	231-235	heme oxygenase 2	Homo sapiens	53-56	
19780600-0	2009	Water vapor effect on the HNO3 yield in the HO2 + NO reaction: experimental and theoretical evidence.	Nitric Acid	26-30	heme oxygenase 2	Homo sapiens	44-47	
16722705-8	2006	Of these two parameter sets, one is far more consistent with recent observations of trans-HOONO decay, isotopic scrambling, and HONO2 production from HO2 + NO.	Nitric Acid	128-133	heme oxygenase 2	Homo sapiens	150-153	
16722705-11	2006	This has significant implications for observed HOONO behavior and also HONO2 formation in the atmosphere from both HO2 + NO and OH + NO2.	Nitric Acid	71-76	heme oxygenase 2	Homo sapiens	115-118	
16833996-0	2005	Formation of nitric acid in the gas-phase HO2 + NO reaction: effects of temperature and water vapor.	Nitric Acid	13-24	heme oxygenase 2	Homo sapiens	42-45	
16833996-1	2005	A high-pressure turbulent flow reactor coupled with a chemical ionization mass spectrometer was used to investigate the minor channel (1b) producing nitric acid, HNO3, in the HO2 + NO reaction for which only one channel (1a) is known so far: HO2 + NO --> OH + NO2 (1a), HO2 + NO --> HNO3 (1b).	Nitric Acid	149-160	heme oxygenase 2	Homo sapiens	175-178	
16833996-1	2005	A high-pressure turbulent flow reactor coupled with a chemical ionization mass spectrometer was used to investigate the minor channel (1b) producing nitric acid, HNO3, in the HO2 + NO reaction for which only one channel (1a) is known so far: HO2 + NO --> OH + NO2 (1a), HO2 + NO --> HNO3 (1b).	Nitric Acid	149-160	heme oxygenase 2	Homo sapiens	242-245	
16833996-1	2005	A high-pressure turbulent flow reactor coupled with a chemical ionization mass spectrometer was used to investigate the minor channel (1b) producing nitric acid, HNO3, in the HO2 + NO reaction for which only one channel (1a) is known so far: HO2 + NO --> OH + NO2 (1a), HO2 + NO --> HNO3 (1b).	Nitric Acid	149-160	heme oxygenase 2	Homo sapiens	242-245	
16833996-1	2005	A high-pressure turbulent flow reactor coupled with a chemical ionization mass spectrometer was used to investigate the minor channel (1b) producing nitric acid, HNO3, in the HO2 + NO reaction for which only one channel (1a) is known so far: HO2 + NO --> OH + NO2 (1a), HO2 + NO --> HNO3 (1b).	Nitric Acid	162-166	heme oxygenase 2	Homo sapiens	175-178	
16833996-1	2005	A high-pressure turbulent flow reactor coupled with a chemical ionization mass spectrometer was used to investigate the minor channel (1b) producing nitric acid, HNO3, in the HO2 + NO reaction for which only one channel (1a) is known so far: HO2 + NO --> OH + NO2 (1a), HO2 + NO --> HNO3 (1b).	Nitric Acid	162-166	heme oxygenase 2	Homo sapiens	242-245	
16833996-1	2005	A high-pressure turbulent flow reactor coupled with a chemical ionization mass spectrometer was used to investigate the minor channel (1b) producing nitric acid, HNO3, in the HO2 + NO reaction for which only one channel (1a) is known so far: HO2 + NO --> OH + NO2 (1a), HO2 + NO --> HNO3 (1b).	Nitric Acid	162-166	heme oxygenase 2	Homo sapiens	242-245	
16833996-1	2005	A high-pressure turbulent flow reactor coupled with a chemical ionization mass spectrometer was used to investigate the minor channel (1b) producing nitric acid, HNO3, in the HO2 + NO reaction for which only one channel (1a) is known so far: HO2 + NO --> OH + NO2 (1a), HO2 + NO --> HNO3 (1b).	Nitric Acid	289-293	heme oxygenase 2	Homo sapiens	175-178