PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
26353707-9	2015	By combining the photoconductive response of two different carbon nanotubes thin film samples, a straightforward XOR encryption was performed.	Carbon	59-65	xanthine dehydrogenase	Homo sapiens	113-116	
29946611-8	2018	This observed hydroxylation reactivity is consistent with the postulated first step of Mo-Cu CODH (nucleophilic attack of the Mo(vi)-oxo on the Cu(i)-bound electrophilic CO) and xanthine oxidoreductase (nucleophilic attack of Mo(vi)-oxo on the electrophilic xanthine carbon).	Carbon	267-273	xanthine dehydrogenase	Homo sapiens	178-201	
18974051-5	2008	Structure-function studies indicate that the carboxylic acid moiety, nitration at the 9 or 10 olefinic carbon, and unsaturation is required for XOR inhibition.	Carbon	103-109	xanthine dehydrogenase	Homo sapiens	144-147	
15148401-3	2004	Here, we present the crystal structure of the key intermediate in the hydroxylation reaction of xanthine oxidoreductase with a slow substrate, in which the carbon-oxygen bond of the product is formed, yet the product remains complexed to the molybdenum.	Carbon	156-162	xanthine dehydrogenase	Homo sapiens	96-119	
20877801-0	2009	The reaction mechanism of the molybdenum hydroxylase xanthine oxidoreductase: evidence against the formation of intermediates having metal-carbon bonds.	Carbon	139-145	xanthine dehydrogenase	Homo sapiens	53-76