PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
15203893-12	2004	Finally, following iron scavenging by deferoxamine mesylate (DFO, resulting in a higher Tf R expression) a 5-fold increase in association of Tf-HRP to 15.8 ng/mg cell protein was observed.	Deferoxamine	38-59	serotransferrin	Bos taurus	88-90	
15203893-12	2004	Finally, following iron scavenging by deferoxamine mesylate (DFO, resulting in a higher Tf R expression) a 5-fold increase in association of Tf-HRP to 15.8 ng/mg cell protein was observed.	Deferoxamine	38-59	serotransferrin	Bos taurus	141-143	
15203893-12	2004	Finally, following iron scavenging by deferoxamine mesylate (DFO, resulting in a higher Tf R expression) a 5-fold increase in association of Tf-HRP to 15.8 ng/mg cell protein was observed.	Deferoxamine	61-64	serotransferrin	Bos taurus	88-90	
15203893-12	2004	Finally, following iron scavenging by deferoxamine mesylate (DFO, resulting in a higher Tf R expression) a 5-fold increase in association of Tf-HRP to 15.8 ng/mg cell protein was observed.	Deferoxamine	61-64	serotransferrin	Bos taurus	141-143	
27567687-10	2016	The endothelial cells demonstrated an up-regulation of transferrin receptor mRNA after treatment with the iron chelator deferoxamine.	Deferoxamine	120-132	serotransferrin	Bos taurus	55-66	
3790074-4	1986	After 96 h cells, cultured with 20 and 50 microM-desferrioxamine accumulated 59Fe from bovine transferrin at over twice the rate found with control cells, reflecting the increase in transferrin receptors.	Deferoxamine	49-64	serotransferrin	Bos taurus	94-105	
3790074-4	1986	After 96 h cells, cultured with 20 and 50 microM-desferrioxamine accumulated 59Fe from bovine transferrin at over twice the rate found with control cells, reflecting the increase in transferrin receptors.	Deferoxamine	49-64	serotransferrin	Bos taurus	182-193	
3790074-9	1986	Desferrioxamine may increase transferrin receptors in two ways: by chelating a regulatory pool of iron within the cell, and by arresting cells in S phase when receptors are maximally expressed.	Deferoxamine	0-15	serotransferrin	Bos taurus	29-40	
22871140-4	2012	Iron chelators, such as EDTA, desferrioxamine, and deferiprone, were found to cause the nanoshells to degrade on the removal of iron(III) within several days at 80  C. When the iron(III)-doped, silica nanoshells were submerged in fetal bovine and human serums at physiological temperature, they also degrade via removal of the iron by serum proteins, such as transferrin, over a period of several weeks.	Deferoxamine	30-45	serotransferrin	Bos taurus	359-370