PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
19669235-6	2009	This compliments previous reports that folate is important for milk protein synthesis and suggests FOLR1 may be a key regulatory point of folate metabolism for milk protein synthesis within mammary epithelial cells (lactocytes).	Folic Acid	138-144	folate receptor alpha	Bos taurus	99-104	
25023142-1	2014	The folate receptor alpha (FOLR1) present in milk has widely been studied to investigate the effects of pasteurization, ultra-high temperature (UHT) processing and fermentation on net folate concentration.	Folic Acid	4-10	folate receptor alpha	Bos taurus	27-32	
25023142-2	2014	However, the folate binding mechanism with FOLR1, and effect of temperature on FOLR1-folate complex is poorly explored till now in bovine milk which is a chief resource of folate.	Folic Acid	13-19	folate receptor alpha	Bos taurus	43-48	
25023142-2	2014	However, the folate binding mechanism with FOLR1, and effect of temperature on FOLR1-folate complex is poorly explored till now in bovine milk which is a chief resource of folate.	Folic Acid	85-91	folate receptor alpha	Bos taurus	79-84	
25023142-2	2014	However, the folate binding mechanism with FOLR1, and effect of temperature on FOLR1-folate complex is poorly explored till now in bovine milk which is a chief resource of folate.	Folic Acid	85-91	folate receptor alpha	Bos taurus	79-84	
25023142-4	2014	To understand the folate deficiency in milk after processing, in absence of experimental structure, 3D model of bovine FOLR1 (bvFOLR1) was built followed by 40ns molecular dynamics (MD) simulation.	Folic Acid	18-24	folate receptor alpha	Bos taurus	119-124