PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
30977474-4	2019	Herein, we have described a composite material that could encapsulate a magnetic Fe3O4 core in a MIL-100 shell (MMs), which could respond to pH changes and modify the anti-EpCAM antibody (anti-EpCAM-MMs) on the surface of MIL-100.	mil-100	97-104	epithelial cell adhesion molecule	Homo sapiens	172-177	
30977474-4	2019	Herein, we have described a composite material that could encapsulate a magnetic Fe3O4 core in a MIL-100 shell (MMs), which could respond to pH changes and modify the anti-EpCAM antibody (anti-EpCAM-MMs) on the surface of MIL-100.	mil-100	97-104	epithelial cell adhesion molecule	Homo sapiens	193-198	
30977474-4	2019	Herein, we have described a composite material that could encapsulate a magnetic Fe3O4 core in a MIL-100 shell (MMs), which could respond to pH changes and modify the anti-EpCAM antibody (anti-EpCAM-MMs) on the surface of MIL-100.	mil-100	222-229	epithelial cell adhesion molecule	Homo sapiens	172-177	
30977474-4	2019	Herein, we have described a composite material that could encapsulate a magnetic Fe3O4 core in a MIL-100 shell (MMs), which could respond to pH changes and modify the anti-EpCAM antibody (anti-EpCAM-MMs) on the surface of MIL-100.	mil-100	222-229	epithelial cell adhesion molecule	Homo sapiens	193-198	
30977474-5	2019	After the anti-EpCAM-MMs captured the cells, there was no need for additional conditions but with the acidic environment during the cell culture process, MIL-100 could realize automatic degradation, leading to cell self-release.	mil-100	154-161	epithelial cell adhesion molecule	Homo sapiens	15-20