PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27973843-4	2016	Oxidation of Np(V) by NO3  (k = 8.1 x 108 dm3 mol-1 s-1) provides the initial increase in Np(VI) concentration, while also delaying net reduction of Np(VI) by consuming HNO2.	Nitrous Acid	169-173	NBL1, DAN family BMP antagonist	Homo sapiens	22-25	
32084312-2	2020	In this study, a fast photochemical renoxification rate of adsorbed HNO3/NO3- to active nitrogen species (HONO, NO and NO2) was detected on real urban PM2.5, and sulfate was found to play a key role in this process.	Nitrous Acid	106-110	NBL1, DAN family BMP antagonist	Homo sapiens	68-76	
18825290-0	2008	Complexes of HNO3 and NO3 - with NO2 and N2O4, and their potential role in atmospheric HONO formation.	Nitrous Acid	87-91	NBL1, DAN family BMP antagonist	Homo sapiens	14-17	
27171587-4	2016	For acidic HNO3 solutions (7 mol dm(-3)), radiolytically produced NO3( ) is predominantly consumed within 1 ms by HNO2 (15%) and NO2 (80%).	Nitrous Acid	114-118	NBL1, DAN family BMP antagonist	Homo sapiens	12-15	
25647299-6	2015	Presented examples are as follows: (i) Reaction of the (NO(+))(NO3(-)) ion pair with a water cluster to produce the atmospherically important HONO and HNO3.	Nitrous Acid	142-146	NBL1, DAN family BMP antagonist	Homo sapiens	63-66	
25271384-2	2014	Photolysis of NO3(-) leads to NO2 and HONO, both of which play important roles in tropospheric ozone and OH production.	Nitrous Acid	38-42	NBL1, DAN family BMP antagonist	Homo sapiens	14-17	
25271384-3	2014	Field and laboratory studies suggest that NO3  photochemistry is a more important source of HONO than once thought, although a mechanistic understanding of the variables controlling this process is lacking.	Nitrous Acid	92-96	NBL1, DAN family BMP antagonist	Homo sapiens	42-45	
25271384-4	2014	We present results of cavity-enhanced absorption spectroscopy measurements of NO2 and HONO emitted during photodegradation of aqueous NO3(-) under acidic conditions.	Nitrous Acid	86-90	NBL1, DAN family BMP antagonist	Homo sapiens	134-137	
25271384-8	2014	The presence of nonchromophoric OH scavengers that are naturally present in the environment increases HONO production 4-fold, and therefore play an important role in enhancing daytime HONO formation from NO3(-) photochemistry.	Nitrous Acid	102-106	NBL1, DAN family BMP antagonist	Homo sapiens	204-207	
25271384-8	2014	The presence of nonchromophoric OH scavengers that are naturally present in the environment increases HONO production 4-fold, and therefore play an important role in enhancing daytime HONO formation from NO3(-) photochemistry.	Nitrous Acid	184-188	NBL1, DAN family BMP antagonist	Homo sapiens	204-207	
16834250-13	2005	IEFPCM results on free energy of undelocalized polar ions such as NO3-, NO2-, and NH3OH+ are not very accurate and have difficulties in predicting the right direction of acid dissociation equilibrium of HONO2, HONO, and NH3OH+.	Nitrous Acid	203-207	NBL1, DAN family BMP antagonist	Homo sapiens	66-69	
17388277-3	2007	The gas-phase reaction products of NO3 reacting with gray soot were NO, N2O5, HONO, and HNO3 with HONO being absent on black soot.	Nitrous Acid	78-82	NBL1, DAN family BMP antagonist	Homo sapiens	35-38	
17388277-3	2007	The gas-phase reaction products of NO3 reacting with gray soot were NO, N2O5, HONO, and HNO3 with HONO being absent on black soot.	Nitrous Acid	98-102	NBL1, DAN family BMP antagonist	Homo sapiens	35-38	
34086442-4	2021	The uptake process of NO2 on OA gives HONO as a reaction product, and the highest HONO production was observed upon the heterogeneous reaction of NO2 with OA in the presence of nitrate (NO3-) ions.	Nitrous Acid	38-42	NBL1, DAN family BMP antagonist	Homo sapiens	186-189	
34086442-4	2021	The uptake process of NO2 on OA gives HONO as a reaction product, and the highest HONO production was observed upon the heterogeneous reaction of NO2 with OA in the presence of nitrate (NO3-) ions.	Nitrous Acid	82-86	NBL1, DAN family BMP antagonist	Homo sapiens	186-189	
10909728-3	2000	The differences in the NO2-/NO3- ratio found between various studies can be satisfactorily explained though a mechanism where HNO2 and HNO3 are formed in the gas phase of the imploding cavity, and then dissolve in the water and dissociate to ions.	Nitrous Acid	126-130	NBL1, DAN family BMP antagonist	Homo sapiens	28-31