PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34624190-8	2021	Selective functionalization of the surface was utilized to uncover the dominant acid-base interactions of carboxyl and amine groups at low pH while hydroxyl groups control the high pH range sensitivity.	Amines	119-124	phenylalanine hydroxylase	Homo sapiens	139-141	
33405653-4	2019	Upon lowering of pH, these larger aggregates disassembled into smaller nanoparticles with diameters of 3-5 nm as directed by protonation of tertiary amine side-chains.	Amines	149-154	phenylalanine hydroxylase	Homo sapiens	17-19	
33845472-7	2021	A combined analysis suggests that the underlying mechanism controlling AuNPs geometry correlates with amine"s preferential adsorption over ammonium groups, enhanced upon increasing pH.	Amines	102-107	phenylalanine hydroxylase	Homo sapiens	181-183	
33671501-8	2021	When high levels of amine concentration are used, the initial pH values in the reaction are also high which leads to agglomeration.	Amines	20-25	phenylalanine hydroxylase	Homo sapiens	62-64	
34614030-4	2021	The sensor array itself is composed of pH indicators and aniline dyes that enable molecular recognition of carboxylic acids, amines and carbonyl-containing compounds.	Amines	125-131	phenylalanine hydroxylase	Homo sapiens	39-41	
35218123-2	2022	Previously, we reported an ultra-pH-sensitive (UPS) nanoprobe library with a sharp pH response using co-polymerization of two tertiary amine-containing monomers with distinct pKa .	Amines	135-140	phenylalanine hydroxylase	Homo sapiens	33-35	
35218123-2	2022	Previously, we reported an ultra-pH-sensitive (UPS) nanoprobe library with a sharp pH response using co-polymerization of two tertiary amine-containing monomers with distinct pKa .	Amines	135-140	phenylalanine hydroxylase	Homo sapiens	83-85	
35218123-3	2022	Currently, we have generalized the UPS nanoparticle library with tunable pH transitions (pHt ) by copolymerization of a tertiary amine-containing monomer with a series of non-ionizable monomers.	Amines	129-134	phenylalanine hydroxylase	Homo sapiens	73-75	
16584268-5	2006	The interlayer PAH contains neutral (-NH2) and positively charged (-NH3(+)) amine groups, and the -NH3(+) groups are associated with Cl- (to generate -NH3(+) Cl- ion pairs) as well as the negatively charged manganese oxide layers.	Amines	76-81	phenylalanine hydroxylase	Homo sapiens	15-18	
12210276-3	2002	A mutation in the functionally critical tetrahydrobiopterin cofactor binding domain of the PAH gene had been identified in African-American patients with the diagnosis of schizophrenia, and biochemical analyses suggested that this mutation has physiological consequences related to amine neurotransmitter function.	Amines	282-287	phenylalanine hydroxylase	Homo sapiens	91-94