PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27904688-0	2016	Molecular mechanism of prostate cancer cell apoptosis induced by busulfan via adjustment of androgen receptor phosphatization.	Busulfan	65-73	androgen receptor	Homo sapiens	92-109	
27904688-11	2016	Busulfan was found to be inhibitory to Src kinase induced by EGF and level of resulting AR phosphatization in our further probe into the mechanism of busulfan influence on phosphatization level at AR Y534 site.	Busulfan	150-158	androgen receptor	Homo sapiens	197-199	
27904688-13	2016	CONCLUSION: Busulfan was significantly inhibitory to prostate cancer cell proliferation by inhibiting phosphatization of Src kinase at AR Y534 site.	Busulfan	12-20	androgen receptor	Homo sapiens	135-137	
27904688-10	2016	However, decline of phosphatization level at AR Y534 site was positively related to busulfan treatment time.	Busulfan	84-92	androgen receptor	Homo sapiens	45-47	
27904688-11	2016	Busulfan was found to be inhibitory to Src kinase induced by EGF and level of resulting AR phosphatization in our further probe into the mechanism of busulfan influence on phosphatization level at AR Y534 site.	Busulfan	0-8	androgen receptor	Homo sapiens	88-90	
27904688-11	2016	Busulfan was found to be inhibitory to Src kinase induced by EGF and level of resulting AR phosphatization in our further probe into the mechanism of busulfan influence on phosphatization level at AR Y534 site.	Busulfan	0-8	androgen receptor	Homo sapiens	197-199	
27904688-11	2016	Busulfan was found to be inhibitory to Src kinase induced by EGF and level of resulting AR phosphatization in our further probe into the mechanism of busulfan influence on phosphatization level at AR Y534 site.	Busulfan	150-158	androgen receptor	Homo sapiens	88-90