PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
12200115-3	2002	The removal of RDX was accompanied by the formation and accumulation of nitrite ion (NO(2)(-)), formaldehyde (HCHO), ammonium (NH(4)(+)), and nitrous oxide (N(2)O).	Nitrogen Dioxide	85-90	radixin	Homo sapiens	15-18	
10767762-2	2000	The detection of abundant NO+ and NO2- ions for HMX, RDX and CL-20, which are efficient matrices, indicates that explosive decomposition takes place in PDMS of these three substances and that a contribution from the corresponding chemical energy release is possible.	Nitrogen Dioxide	34-37	radixin	Homo sapiens	53-56	
32820387-10	2020	It can be revealed from the result that the initial reaction path of Composition B decomposition is N-NO2 of RDX cleavage to form NO2, followed by the reaction of TNT with NO2 and other molecules.	Nitrogen Dioxide	102-105	radixin	Homo sapiens	109-112	
32820387-10	2020	It can be revealed from the result that the initial reaction path of Composition B decomposition is N-NO2 of RDX cleavage to form NO2, followed by the reaction of TNT with NO2 and other molecules.	Nitrogen Dioxide	130-133	radixin	Homo sapiens	109-112	
32767485-5	2020	The ultrahigh accuracy of the 15-T FT-ICR MS was utilized to distinguish two closely spaced peaks representing the monoisotopic [M + NO2 ]- and second isotopic [M + HCOO]- ions, thereby enabling the discovery of a [M + NO2 ]- adduct ion in the ESI analysis of RDX or HMX.	Nitrogen Dioxide	133-136	radixin	Homo sapiens	260-263	
32767485-5	2020	The ultrahigh accuracy of the 15-T FT-ICR MS was utilized to distinguish two closely spaced peaks representing the monoisotopic [M + NO2 ]- and second isotopic [M + HCOO]- ions, thereby enabling the discovery of a [M + NO2 ]- adduct ion in the ESI analysis of RDX or HMX.	Nitrogen Dioxide	219-222	radixin	Homo sapiens	260-263	
32767485-7	2020	It is the first report explaining the discovery of [M + NO2 ]- adduct ion in the ESI-MS analyses of RDX and HMX.	Nitrogen Dioxide	56-59	radixin	Homo sapiens	100-103	
29761189-5	2018	The H2 is released by AlH3 firstly and then it reacts with NO2 and CO2 from the decomposition of RDX, leading to an increase of H2O, NO and CO.	Nitrogen Dioxide	59-62	radixin	Homo sapiens	97-100	
27016566-5	2016	Compared to the initial RDX bulk delta(15)N value of +9%, delta(15)N values of the NO2 (-) released from RDX ranged from -7% to +2% during aerobic biodegradation and from -42% to -24% during anaerobic biodegradation.	Nitrogen Dioxide	83-86	radixin	Homo sapiens	105-108	
27146290-4	2016	The sensor molecule is a charge-transfer fluorophore, DCM, which is strongly fluorescent in its pristine state, but non-fluorescent after the quick reaction with NO2  (or NO2(+)) generated from the UV photolysis of RDX, HMX (or PETN).	Nitrogen Dioxide	162-165	radixin	Homo sapiens	215-218	
27146290-4	2016	The sensor molecule is a charge-transfer fluorophore, DCM, which is strongly fluorescent in its pristine state, but non-fluorescent after the quick reaction with NO2  (or NO2(+)) generated from the UV photolysis of RDX, HMX (or PETN).	Nitrogen Dioxide	171-174	radixin	Homo sapiens	215-218	
26191543-6	2015	Additionally, the quantities of fragment ions of tetryl and adduct ions such as [RDX + NO2](-) and [PETN + NO2](-) were dramatically reduced, which simplified the mass spectra and avoided the overlap of mass peaks for different explosives.	Nitrogen Dioxide	87-90	radixin	Homo sapiens	81-84	
26191543-6	2015	Additionally, the quantities of fragment ions of tetryl and adduct ions such as [RDX + NO2](-) and [PETN + NO2](-) were dramatically reduced, which simplified the mass spectra and avoided the overlap of mass peaks for different explosives.	Nitrogen Dioxide	107-110	radixin	Homo sapiens	81-84	
22770527-8	2012	On the other hand, the RR spectra of the RDX conformers differ from one another, reflecting the importance of the positioning of the NO2 groups with respect to the ring.	Nitrogen Dioxide	133-136	radixin	Homo sapiens	41-44	
17181358-1	2006	Quantum chemistry calculations reveal that it is both thermodynamically and kinetically feasible for NO2 to be oxidized by RDX (1,3,5-trinitrohexahydro-s-triazine) or its initial decomposition products.	Nitrogen Dioxide	101-104	radixin	Homo sapiens	123-126	
33170181-1	2021	An additional dimension of selectivity for the determination of RDX by ion mobility spectrometry (IMS) was introduced through field-induced decomposition of RDX Cl- to NO2- on a spectral baseline free of interfering peaks.	Nitrogen Dioxide	168-172	radixin	Homo sapiens	64-67