PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
16643958-6	2006	The remarkable increases in levels of expression of tyrosine hydroxylase, DOPA decarboxylase and dopamine beta-hydroxylase suggest that MK together with PTN are very important regulators of the catecholamine pathway in mouse aorta and may critically regulate catecholamine biosynthesis and function in inflammatory and the other pathological conditions in which Mk or Ptn are upregulated.	Catecholamines	194-207	pleiotrophin	Mus musculus	153-156	
15985215-2	2005	The Mk and Ptn genes are essential for normal development of the catecholamine and renin-angiotensin pathways and the synthesis of different collagens.	Catecholamines	65-78	pleiotrophin	Mus musculus	11-14	
15369781-0	2004	Pleiotrophin is a major regulator of the catecholamine biosynthesis pathway in mouse aorta.	Catecholamines	41-54	pleiotrophin	Mus musculus	0-12	
15369781-4	2004	These findings suggest that Ptn gene expression has a critical role in determining the levels of expression of the enzymes of catecholamine biosynthesis in aorta and through this mechanism, PTN may regulate levels of endogenous catecholamine synthesis and potentially the vascular tone of aorta.	Catecholamines	126-139	pleiotrophin	Mus musculus	28-31	
15369781-4	2004	These findings suggest that Ptn gene expression has a critical role in determining the levels of expression of the enzymes of catecholamine biosynthesis in aorta and through this mechanism, PTN may regulate levels of endogenous catecholamine synthesis and potentially the vascular tone of aorta.	Catecholamines	126-139	pleiotrophin	Mus musculus	190-193	
15369781-4	2004	These findings suggest that Ptn gene expression has a critical role in determining the levels of expression of the enzymes of catecholamine biosynthesis in aorta and through this mechanism, PTN may regulate levels of endogenous catecholamine synthesis and potentially the vascular tone of aorta.	Catecholamines	228-241	pleiotrophin	Mus musculus	28-31	
15369781-4	2004	These findings suggest that Ptn gene expression has a critical role in determining the levels of expression of the enzymes of catecholamine biosynthesis in aorta and through this mechanism, PTN may regulate levels of endogenous catecholamine synthesis and potentially the vascular tone of aorta.	Catecholamines	228-241	pleiotrophin	Mus musculus	190-193