PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
9852062-0	1998	Identification of Glu-540 as the catalytic nucleophile of human beta-glucuronidase using electrospray mass spectrometry.	Glutamic Acid	18-21	glucuronidase beta	Homo sapiens	64-82	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	138-141	glucuronidase beta	Homo sapiens	47-52	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	138-141	glucuronidase beta	Homo sapiens	174-179	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	148-151	glucuronidase beta	Homo sapiens	47-52	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	148-151	glucuronidase beta	Homo sapiens	174-179	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	148-151	glucuronidase beta	Homo sapiens	47-52	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	148-151	glucuronidase beta	Homo sapiens	174-179	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	148-151	glucuronidase beta	Homo sapiens	47-52	
10438523-3	1999	Amino acid sequence and structural homology of hGUSB and Escherichia coli beta-galactosidase active sites led us to propose that residues Glu(451), Glu(540), and Tyr(504) in hGUSB are involved in catalysis, Glu(451) being the acid-base residue and Glu(540) the nucleophile.	Glutamic Acid	148-151	glucuronidase beta	Homo sapiens	174-179	
1520585-11	1992	Pretreatment of antigen-positive cells with the 323/A3-GUS conjugate prior to prodrug exposure completely restored cytotoxicity as a result from hydrolysis of Epi-glu into Epi.	Glutamic Acid	163-166	glucuronidase beta	Homo sapiens	55-58	
1520585-12	1992	Our results demonstrate that the 323/A3-GUS conjugate can specifically activate the stable non-toxic prodrug Epi-glu at the tumour cell level.	Glutamic Acid	113-116	glucuronidase beta	Homo sapiens	40-43	
18058328-11	2007	Third, the inhibition of beta-glucuronidase in liver by carbapenem antibiotics and the decreased VPA amount liberated from VPA-Glu.	Glutamic Acid	127-130	glucuronidase beta	Homo sapiens	25-43	
35231853-6	2022	Two-hour oral glucose tolerance test (OGTT-2h-glu; mg/dL) was the main predictor of beta-glucuronidase activity and there was no relationship between beta-glucuronidase activity and androgen levels.	Glutamic Acid	46-49	glucuronidase beta	Homo sapiens	84-102