PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
28377359-5	2017	The effect of miR-206 on the sensitivity of ovarian cancer cells to 5-Fu was assessed.	Fluorouracil	68-72	microRNA 206	Homo sapiens	14-21	
29636622-0	2018	miR-206 regulates 5-FU resistance by targeting Bcl-2 in colon cancer cells.	Fluorouracil	18-22	microRNA 206	Homo sapiens	0-7	
29636622-3	2018	The current study aimed to explore the potential function of miR-206 in 5-FU resistance.	Fluorouracil	72-76	microRNA 206	Homo sapiens	61-68	
29636622-5	2018	miR-206 mimic was transfected to 5-FU-FR CRC, and the 5-FU sensitivity was detected by MTS and flow cytometry.	Fluorouracil	33-37	microRNA 206	Homo sapiens	0-7	
29636622-9	2018	We also identified miR-206 targeting Bcl-2 directly in CRC, which is required for miR-206 mediated-5-FU resistance.	Fluorouracil	99-103	microRNA 206	Homo sapiens	19-26	
29636622-9	2018	We also identified miR-206 targeting Bcl-2 directly in CRC, which is required for miR-206 mediated-5-FU resistance.	Fluorouracil	99-103	microRNA 206	Homo sapiens	82-89	
28377359-10	2017	Transfection of SKOV3 cells with miR-206 significantly lowered the IC50 of 5-Fu to enhance the chemotherapy sensitivity of the cells to 5-Fu.	Fluorouracil	75-79	microRNA 206	Homo sapiens	33-40	
28377359-10	2017	Transfection of SKOV3 cells with miR-206 significantly lowered the IC50 of 5-Fu to enhance the chemotherapy sensitivity of the cells to 5-Fu.	Fluorouracil	136-140	microRNA 206	Homo sapiens	33-40	
28377359-11	2017	CONCLUSION: As a potential tumor suppressor, miR-206 directly targets CDK4 to suppress the cell growth and enhance the chemotherapy sensitivity to 5-Fu in ovarian cancer cells in vitro.	Fluorouracil	147-151	microRNA 206	Homo sapiens	45-52