PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27802058-3	2016	Here we demonstrate a new chelating platform composed of a multidentate high-affinity oxygen-donating ligand 3,4,3-LI(CAM) bound to the mammalian protein siderocalin.	Oxygen	86-92	calmodulin 3	Homo sapiens	118-121	
22217848-8	1992	All of these substitutions are associated with the conserved dioxygen binding region of the putative I helix predicted from the crystal structure of P450(cam).	Oxygen	61-69	calmodulin 3	Homo sapiens	149-158	
23634216-1	2013	P450(cam) (CYP101A1) is a bacterial monooxygenase that is known to catalyze the oxidation of camphor, the first committed step in camphor degradation, with simultaneous reduction of oxygen (O2).	Oxygen	40-46	calmodulin 3	Homo sapiens	0-9	
23634216-1	2013	P450(cam) (CYP101A1) is a bacterial monooxygenase that is known to catalyze the oxidation of camphor, the first committed step in camphor degradation, with simultaneous reduction of oxygen (O2).	Oxygen	190-192	calmodulin 3	Homo sapiens	0-9	
23634216-2	2013	We report that P450(cam) catalysis is controlled by oxygen levels: at high O2 concentration, P450(cam) catalyzes the known oxidation reaction, whereas at low O2 concentration the enzyme catalyzes the reduction of camphor to borneol.	Oxygen	52-58	calmodulin 3	Homo sapiens	15-24	
23634216-6	2013	This reaction has an adaptive value to bacteria that express this camphor catabolism pathway, which requires O2, for two reasons: 1) the borneol and H2O2 mixture generated is toxic to other bacteria and 2) borneol down-regulates the expression of P450(cam) and its electron transfer partners.	Oxygen	109-111	calmodulin 3	Homo sapiens	247-256	
23634216-2	2013	We report that P450(cam) catalysis is controlled by oxygen levels: at high O2 concentration, P450(cam) catalyzes the known oxidation reaction, whereas at low O2 concentration the enzyme catalyzes the reduction of camphor to borneol.	Oxygen	52-58	calmodulin 3	Homo sapiens	93-102	
23634216-2	2013	We report that P450(cam) catalysis is controlled by oxygen levels: at high O2 concentration, P450(cam) catalyzes the known oxidation reaction, whereas at low O2 concentration the enzyme catalyzes the reduction of camphor to borneol.	Oxygen	75-77	calmodulin 3	Homo sapiens	15-24	
23634216-2	2013	We report that P450(cam) catalysis is controlled by oxygen levels: at high O2 concentration, P450(cam) catalyzes the known oxidation reaction, whereas at low O2 concentration the enzyme catalyzes the reduction of camphor to borneol.	Oxygen	75-77	calmodulin 3	Homo sapiens	93-102	
23634216-2	2013	We report that P450(cam) catalysis is controlled by oxygen levels: at high O2 concentration, P450(cam) catalyzes the known oxidation reaction, whereas at low O2 concentration the enzyme catalyzes the reduction of camphor to borneol.	Oxygen	158-160	calmodulin 3	Homo sapiens	15-24	
18359283-14	2008	Our results, and a structure model based on the crystal structures of the ferrous dioxygen complexes of P450(cam) and its T252A mutant, suggest that Asn252 can stabilize the ferric hydroperoxy intermediate, preventing premature release of H(2)O(2) and enabling addition of the second proton to the distal oxygen to generate the catalytic ferryl species.	Oxygen	84-90	calmodulin 3	Homo sapiens	104-113