PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32416427-5	2020	Cu and Zn ions were mainly electrochemically adsorbed on the carbon cathode and anode, respectively, resulting in decreases of their concentrations to below 1 mg L-1 in the leachate.	Zinc	7-9	L1 cell adhesion molecule	Homo sapiens	162-165	
34668076-7	2021	The calibration curve showed a linear range of 1 to 70 microg L-1 and 1 to 70 micromol L-1 for Zn2+ and UA, respectively.	Zinc	95-99	L1 cell adhesion molecule	Homo sapiens	62-71	
34668076-9	2021	The detection limits for Zn2+ and UA were 0.10 microg L-1 and 0.28 micromol L-1, respectively.	Zinc	25-29	L1 cell adhesion molecule	Homo sapiens	54-63	
32712520-4	2020	RESULTS: Considering total element evaluation through ICP-MS, Co, Ni, Mn, and Zn are found at the highest concentrations in the sample, namely 415 +- 36, 202 +- 55, 1389 +- 225 and 2397 +- 197 mug L-1, respectively.	Zinc	78-80	L1 cell adhesion molecule	Homo sapiens	197-200	
31220758-4	2019	When the milling time was 2 h, Pb, Cu, and Zn leaching concentrations decreased from 13.92 mg L-1, 2.83 mg L-1, and 114.42 mg L-1 to 0.027 mg L-1, 0.59 mg L-1, and 0.16 mg L-1, respectively; these values were all lower than the surface water Class III standard regulatory thresholds proposed by the Chinese Ministry of Ecology and Environment.	Zinc	43-45	L1 cell adhesion molecule	Homo sapiens	94-97	
31834667-7	2020	The N-(2-methoxyphenyl)iminodiacetate Zn2+ ion sensor has a sensitivity of 1 micromol L-1 within the range of 10-20 micromol L-1 .	Zinc	38-41	L1 cell adhesion molecule	Homo sapiens	86-89	
31834667-7	2020	The N-(2-methoxyphenyl)iminodiacetate Zn2+ ion sensor has a sensitivity of 1 micromol L-1 within the range of 10-20 micromol L-1 .	Zinc	38-41	L1 cell adhesion molecule	Homo sapiens	125-128	
31799844-2	2019	L1 displays crystallographic symmetry (orthorhombic, Pccn) higher than its molecular symmetry (point group C1) and also displays supercooling, with a difference in the melting and solidification points of over 100  C. Upon complexation with ZnCl2, L1 engages in both primary cation and secondary anion coordination via hydrogen bonding, and the complex exhibits a room-to-low-temperature single crystal-to-crystal phase transition.	Zinc	241-246	L1 cell adhesion molecule	Homo sapiens	0-2	
31220758-4	2019	When the milling time was 2 h, Pb, Cu, and Zn leaching concentrations decreased from 13.92 mg L-1, 2.83 mg L-1, and 114.42 mg L-1 to 0.027 mg L-1, 0.59 mg L-1, and 0.16 mg L-1, respectively; these values were all lower than the surface water Class III standard regulatory thresholds proposed by the Chinese Ministry of Ecology and Environment.	Zinc	43-45	L1 cell adhesion molecule	Homo sapiens	107-110	
31984281-4	2020	On the basis of extended conjugation and planarity, L 1 complexes exhibited superior bioactivity with greater calculated DNA binding constant values, (K b) 2.9444 x 103 [(L 1 ) 2 Cu] and 2.2693 x 103 [(L 1 ) 2 Zn], as compared to L 2 complexes, 1.793 x 103 [(L 2 )Cu(H 2 O)] and 9.801 x 102 [(L 2 )Zn(H 2 O)].	Zinc	210-212	L1 cell adhesion molecule	Homo sapiens	52-55	
31984281-4	2020	On the basis of extended conjugation and planarity, L 1 complexes exhibited superior bioactivity with greater calculated DNA binding constant values, (K b) 2.9444 x 103 [(L 1 ) 2 Cu] and 2.2693 x 103 [(L 1 ) 2 Zn], as compared to L 2 complexes, 1.793 x 103 [(L 2 )Cu(H 2 O)] and 9.801 x 102 [(L 2 )Zn(H 2 O)].	Zinc	298-300	L1 cell adhesion molecule	Homo sapiens	52-55	
31220758-4	2019	When the milling time was 2 h, Pb, Cu, and Zn leaching concentrations decreased from 13.92 mg L-1, 2.83 mg L-1, and 114.42 mg L-1 to 0.027 mg L-1, 0.59 mg L-1, and 0.16 mg L-1, respectively; these values were all lower than the surface water Class III standard regulatory thresholds proposed by the Chinese Ministry of Ecology and Environment.	Zinc	43-45	L1 cell adhesion molecule	Homo sapiens	107-110	
31220758-4	2019	When the milling time was 2 h, Pb, Cu, and Zn leaching concentrations decreased from 13.92 mg L-1, 2.83 mg L-1, and 114.42 mg L-1 to 0.027 mg L-1, 0.59 mg L-1, and 0.16 mg L-1, respectively; these values were all lower than the surface water Class III standard regulatory thresholds proposed by the Chinese Ministry of Ecology and Environment.	Zinc	43-45	L1 cell adhesion molecule	Homo sapiens	107-110	
31220758-4	2019	When the milling time was 2 h, Pb, Cu, and Zn leaching concentrations decreased from 13.92 mg L-1, 2.83 mg L-1, and 114.42 mg L-1 to 0.027 mg L-1, 0.59 mg L-1, and 0.16 mg L-1, respectively; these values were all lower than the surface water Class III standard regulatory thresholds proposed by the Chinese Ministry of Ecology and Environment.	Zinc	43-45	L1 cell adhesion molecule	Homo sapiens	107-110	
31220758-4	2019	When the milling time was 2 h, Pb, Cu, and Zn leaching concentrations decreased from 13.92 mg L-1, 2.83 mg L-1, and 114.42 mg L-1 to 0.027 mg L-1, 0.59 mg L-1, and 0.16 mg L-1, respectively; these values were all lower than the surface water Class III standard regulatory thresholds proposed by the Chinese Ministry of Ecology and Environment.	Zinc	43-45	L1 cell adhesion molecule	Homo sapiens	107-110	
29087184-6	2017	The superoxide dismutase (SOD) activities of the Cu2+/Cu2+ and Cu2+/Zn2+ complexes of L1 and L2 have been evaluated using nitro blue tetrazolium assays at pH 7.4.	Zinc	68-72	L1 cell adhesion molecule	Homo sapiens	86-95	
30744926-4	2019	The suppression threshold of Zn(II) on denitrifying bacteria was 10 mg L-1 for long-term exposure.	Zinc	29-35	L1 cell adhesion molecule	Homo sapiens	71-74	
30744926-5	2019	The nitrogen removal rate was decreased by long-term addition of 10 mg L-1 Zn(II).	Zinc	75-81	L1 cell adhesion molecule	Homo sapiens	71-74	
29902756-3	2018	The results indicated that the sensor L1 and L2 exhibited highly selective and sensitive recognition for Zn2+ ions.	Zinc	105-109	L1 cell adhesion molecule	Homo sapiens	38-47	
29902756-6	2018	These results indicated that L1 and L2 can be applied as chemosensor for the detection of Zn2+ ion.	Zinc	90-94	L1 cell adhesion molecule	Homo sapiens	29-38	
16924290-2	2006	The protonation constants of L1 and L2 and the stability constants of their complexes with Ni2+, Cu2+, Zn2+ and Cd2+ metal ions were determined in aqueous solutions by potentiometry, at 298.2 K and ionic strength 0.10 mol dm(-3) in KNO3.	Zinc	103-107	L1 cell adhesion molecule	Homo sapiens	29-38	
28792450-4	2017	The limits of detection for the simultaneous determination of zinc, cadmium, copper and lead on the screen printed electrodes were found to be 350 microg L-1 for Zn(II), 25 microg L-1 for Cd(II), 3 microg L-1 for Pb(II) and 3 microg L-1 for Cu(II).	Zinc	162-168	L1 cell adhesion molecule	Homo sapiens	154-157	
28621407-5	2017	The limit of quantification for both Zn and Cu was 5 mug L-1 and 10 mug L-1 for Fe and the recovery for Zn, Fe and Cu was ranged from 90% to 94%, 97% to 103% and 90% to 102%, respectively.	Zinc	37-39	L1 cell adhesion molecule	Homo sapiens	57-75	
27573342-2	2016	The binding and fluorescence sensing properties toward Cu2+ , Zn2+ , Cd2+ , and Pb2+ of L1 and receptor L2, composed of two [9]aneN3 macrocycles bridged by a 6,6""-dimethylen-2,2":6",2""-terpyridine unit, have been studied by coupling potentiometric, UV/Vis absorption, and emission measurements in aqueous media.	Zinc	62-66	L1 cell adhesion molecule	Homo sapiens	88-106	
28621407-6	2017	Mean concentrations of Zn, Fe, and Cu in human milk samples were 5.35, 0.47 and 0.83 mg L-1, respectively while these values in infant formula were ranged from 3.52-4.75 mg L-1, 3.37-4.56 mg L-1 and 0.28-0.41 mg L-1, respectively.	Zinc	23-25	L1 cell adhesion molecule	Homo sapiens	88-91	
26192046-6	2015	Also, the Zn(2+)vs. Cd(2+) discrimination for L1 and L2 is proved.	Zinc	10-12	L1 cell adhesion molecule	Homo sapiens	46-55	
22519733-0	2012	Imino-phenolic-pyridyl conjugates of calix[4]arene (L1 and L2) as primary fluorescence switch-on sensors for Zn2+ in solution and in HeLa cells and the recognition of pyrophosphate and ATP by [ZnL2].	Zinc	109-113	L1 cell adhesion molecule	Homo sapiens	52-61