PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32035352-7	2020	Amperometry was employed for constructing the quantitative calibration curve; the steady-state current originating from hydrazine oxidation was proportional to the analytical concentration ranging from 0.1 muM to 200 muM, with the detection limit of 16 nM.	hydrazine	120-129	latexin	Homo sapiens	206-209	
32035352-7	2020	Amperometry was employed for constructing the quantitative calibration curve; the steady-state current originating from hydrazine oxidation was proportional to the analytical concentration ranging from 0.1 muM to 200 muM, with the detection limit of 16 nM.	hydrazine	120-129	latexin	Homo sapiens	217-220	
31450471-5	2019	Detection of hydrazine as hydrazinium ion using electrochemical detector was linear between 10 muM and 4 mM, with LOD and LOQ values of 3 muM and 10 muM, respectively.	hydrazine	13-22	latexin	Homo sapiens	95-98	
31759882-6	2020	There was a linear relationship between the fluorescence intensity and the concentration of hydrazine (0.14-120.00 muM).	hydrazine	92-101	latexin	Homo sapiens	115-118	
31789325-4	2020	Additionally, the DPT probe exhibits a low detection limit (5 x 10-8 M), applicable to the physiological pH range (3-12), a broad linear response range for hydrazine concentrations between 0 and 34 muM and a large Stokes shift (147 nm) for hydrazine detection in aqueous solution.	hydrazine	156-165	latexin	Homo sapiens	198-201	
31319274-4	2019	In addition, the detection limit was as low as 3.4 ppb, and the fluorescence intensity at 654 nm showed a satisfactory linearity with the concentration range of hydrazine from 0 to 120 muM.	hydrazine	161-170	latexin	Homo sapiens	185-188	
31450471-5	2019	Detection of hydrazine as hydrazinium ion using electrochemical detector was linear between 10 muM and 4 mM, with LOD and LOQ values of 3 muM and 10 muM, respectively.	hydrazine	13-22	latexin	Homo sapiens	138-141	
31450471-5	2019	Detection of hydrazine as hydrazinium ion using electrochemical detector was linear between 10 muM and 4 mM, with LOD and LOQ values of 3 muM and 10 muM, respectively.	hydrazine	13-22	latexin	Homo sapiens	138-141	
29776549-6	2018	Meanwhile, the sensor also shows a linear response to N2H4 in the range of 0.006-0.061 muM and 0.061-611.111 muM with a high sensitivity of 20.1 muA/muM cm2 in low concentration range as well as a very low LOD as 5.3 nM (S/N = 3).	hydrazine	54-58	latexin	Homo sapiens	87-90	
29776549-6	2018	Meanwhile, the sensor also shows a linear response to N2H4 in the range of 0.006-0.061 muM and 0.061-611.111 muM with a high sensitivity of 20.1 muA/muM cm2 in low concentration range as well as a very low LOD as 5.3 nM (S/N = 3).	hydrazine	54-58	latexin	Homo sapiens	109-112	
29776549-6	2018	Meanwhile, the sensor also shows a linear response to N2H4 in the range of 0.006-0.061 muM and 0.061-611.111 muM with a high sensitivity of 20.1 muA/muM cm2 in low concentration range as well as a very low LOD as 5.3 nM (S/N = 3).	hydrazine	54-58	latexin	Homo sapiens	109-112	
27753199-3	2017	The probe could detect hydrazine quantitatively in the range of 40-500 muM with the detection limit of 2.9 muM.	hydrazine	23-32	latexin	Homo sapiens	71-74	
29268232-5	2018	The detection limit of the probe for hydrazine was calculated to be 0.057muM which was lower than the EPA standard (0.320muM).	hydrazine	37-46	latexin	Homo sapiens	73-76	
27753199-3	2017	The probe could detect hydrazine quantitatively in the range of 40-500 muM with the detection limit of 2.9 muM.	hydrazine	23-32	latexin	Homo sapiens	107-110	
25869440-2	2015	After the addition of hydrazine, an approximately 50-fold enhancement in fluorescence intensity at 465 nm was observed and the subsequent decrease at 375 nm was observed in 10 min with a detection limit of 0.147 muM.	hydrazine	22-31	latexin	Homo sapiens	212-215	
24262887-3	2013	Subsequent studies of hydrazine derivatives identified phenylhydrazine (IC50=0.25 +- 0.07 muM) to be 32-fold more potent than 2-hydrazinobenzothiazole (IC50=8.0 +- 2.3 muM) in inhibiting rhIDO1 and that it inhibited cellular IDO1 at concentrations that were noncytotoxic to cells.	hydrazine	22-31	latexin	Homo sapiens	90-93	
22123120-4	2012	The sensitivity enhancement with nearly two orders of magnitude was gained, compared with the bare carbon paste electrode, with the detection limit of 0.91 muM (S/N=3) for hydrazine.	hydrazine	172-181	latexin	Homo sapiens	156-159	
21962661-3	2011	A high-sensitivity of ~ 89.3 muA cm(-2) muM and low limit of detection of 1.07 muM, based on S/N ratio, were obtained for the fabrication of hydrazine chemical sensor based on P-ZnS NPs.	hydrazine	141-150	latexin	Homo sapiens	40-43	
21962661-3	2011	A high-sensitivity of ~ 89.3 muA cm(-2) muM and low limit of detection of 1.07 muM, based on S/N ratio, were obtained for the fabrication of hydrazine chemical sensor based on P-ZnS NPs.	hydrazine	141-150	latexin	Homo sapiens	79-82	
21645672-3	2011	The PB-graphene/GCE showed sensitive response to H(2)O(2) with a wide linear range of 10-1440 muM at 0.0V, and to hydrazine with a wide linear range of 10-3000 muM at 0.35 V. The detection limit was 3 muM and 7 muM, respectively, and both of them had rapid response within 5s to reach 95% steady state response.	hydrazine	114-123	latexin	Homo sapiens	160-163	
21645672-3	2011	The PB-graphene/GCE showed sensitive response to H(2)O(2) with a wide linear range of 10-1440 muM at 0.0V, and to hydrazine with a wide linear range of 10-3000 muM at 0.35 V. The detection limit was 3 muM and 7 muM, respectively, and both of them had rapid response within 5s to reach 95% steady state response.	hydrazine	114-123	latexin	Homo sapiens	160-163	
21645672-3	2011	The PB-graphene/GCE showed sensitive response to H(2)O(2) with a wide linear range of 10-1440 muM at 0.0V, and to hydrazine with a wide linear range of 10-3000 muM at 0.35 V. The detection limit was 3 muM and 7 muM, respectively, and both of them had rapid response within 5s to reach 95% steady state response.	hydrazine	114-123	latexin	Homo sapiens	160-163