PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
30785140-6	2019	The deposited silver nanoparticles (AgNPs) could be tested directly with anodic stripping voltammetric analysis (ASV) in potassium chloride solution to monitor the immunoreactions, which greatly enhanced the sensitivity of protein markers with a detection limit of 0.008 pg mL-1, and a linear range of 0.02 pg mL-1 to 35 ng mL-1 for neuron-specific enolase antigen.	Silver	14-20	L1 cell adhesion molecule	Mus musculus	274-278	
32683522-5	2020	The silver nanoparticle demonstrated broad-spectrum antimicrobial activity against Gram-positive, Gram-negative and fungi with MIC ranging between 0.26 and 2.10 mug mL-1, respectively.	Silver	4-10	L1 cell adhesion molecule	Mus musculus	165-169	
30785140-6	2019	The deposited silver nanoparticles (AgNPs) could be tested directly with anodic stripping voltammetric analysis (ASV) in potassium chloride solution to monitor the immunoreactions, which greatly enhanced the sensitivity of protein markers with a detection limit of 0.008 pg mL-1, and a linear range of 0.02 pg mL-1 to 35 ng mL-1 for neuron-specific enolase antigen.	Silver	14-20	L1 cell adhesion molecule	Mus musculus	310-314	
30785140-6	2019	The deposited silver nanoparticles (AgNPs) could be tested directly with anodic stripping voltammetric analysis (ASV) in potassium chloride solution to monitor the immunoreactions, which greatly enhanced the sensitivity of protein markers with a detection limit of 0.008 pg mL-1, and a linear range of 0.02 pg mL-1 to 35 ng mL-1 for neuron-specific enolase antigen.	Silver	14-20	L1 cell adhesion molecule	Mus musculus	310-314	
16372180-5	2006	Silver electrodeposition at -0.14 V for 1 min followed by anodic stripping voltammetry were then performed in aqueous 1.0 mol L-1 NH(3)-2.0x10(-4) mol L-1 AgNO3.	Silver	0-6	L1 cell adhesion molecule	Mus musculus	126-129	
28697814-4	2017	Silver and zinc oxide nanoparticles at concentration of 10 and 5 ng mL-1 killed 100 and 97% of theronts, respectively and inhibited reproduction of tomonts after 2 h exposure.	Silver	0-6	L1 cell adhesion molecule	Mus musculus	68-72	
32261625-6	2014	In vitro antibacterial tests were performed against E. coli, P. aeruginosa and S. aureus bacteria, and the minimum concentrations of silver in the nanoparticle form for complete inhibition of bacteria were 0.60, 1.1 and 2.0 mug mL-1, respectively.	Silver	133-139	L1 cell adhesion molecule	Mus musculus	228-232	
32262078-7	2014	The alloyed silver-gold nanoparticles showed no significant cytotoxicity at a metal concentration of 5 mug mL-1 for 24 h, but were cytotoxic to some degree at 50 mug mL-1 at higher silver content.	Silver	12-18	L1 cell adhesion molecule	Mus musculus	166-170	
16372180-5	2006	Silver electrodeposition at -0.14 V for 1 min followed by anodic stripping voltammetry were then performed in aqueous 1.0 mol L-1 NH(3)-2.0x10(-4) mol L-1 AgNO3.	Silver	0-6	L1 cell adhesion molecule	Mus musculus	151-154	
12945433-2	2000	The intensity of resonance scattering light is linear to the silver concentration in the range of 0.456-9.12 micrograms.mL-1.	Silver	61-67	L1 cell adhesion molecule	Mus musculus	120-124	
34995544-7	2022	Interestingly, this kernel fabricated silver nanoparticles possess a reasonable anti-inflammatory (69.77%) and anti-diabetic (73.5%) activity at 100 mug mL-1 and these were partially comparable with standards (anti-inflammatory: 81.15%; anti-diabetic: 87.9%).	Silver	38-44	L1 cell adhesion molecule	Mus musculus	153-157