PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
15199134-8	2004	Surprisingly, gamma-H2AX foci were also induced in Ercc1(-/-) cells by MMC treatment.	Mitomycin	71-74	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	51-56	
16756962-0	2006	XPA versus ERCC1 as chemosensitising agents to cisplatin and mitomycin C in prostate cancer cells: role of ERCC1 in homologous recombination repair.	Mitomycin	61-72	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	11-16	
16756962-3	2006	Downregulation of ERCC1 sensitised DU145 and PC3 cells to cisplatin and mitomycin C.	Mitomycin	72-83	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	18-23	
15199134-11	2004	In Ercc1(-/-) cells, MMC-induced gamma-H2AX foci persisted at least 48 h longer than in wild-type cells, demonstrating that Ercc1 is required for the resolution of cross-link-induced DSBs.	Mitomycin	21-24	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	3-8	
15199134-11	2004	In Ercc1(-/-) cells, MMC-induced gamma-H2AX foci persisted at least 48 h longer than in wild-type cells, demonstrating that Ercc1 is required for the resolution of cross-link-induced DSBs.	Mitomycin	21-24	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	124-129	
9862190-6	1998	These results indicate that both the XPF and ERCC1 proteins are required to repair UV- and MMC-induced DNA damage.	Mitomycin	91-94	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	45-50	
8065913-1	1994	The human excision repair gene ERCC-1 gene restores normal resistance to UV and mitomycin C in excision repair deficient chinese hamster ovary cells of complementation group 1.	Mitomycin	80-91	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	31-37	
3347205-1	1988	The human DNA-excision repair gene ERCC-1 is cloned by its ability to correct the excision-repair defect of the ultraviolet light- and mitomycin-C-sensitive CHO mutant cell line 43-3B.	Mitomycin	135-146	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	35-41	
1945841-2	1991	Whereas antisense RNA did not influence the survival of the transfected cells, a mutated cDNA generating an ERCC-1 protein with two extra amino acids in a conserved region of its C-terminal part resulted in a significant sensitization of the HeLa transfectants to mitomycin C-induced damage.	Mitomycin	264-275	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	108-114	
2918869-1	1989	The human DNA excision repair gene ERCC-1 complements the ultraviolet light (UV) and mitomycin C (MMC) sensitivity of CHO mutants of complementation group 1.	Mitomycin	85-96	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	35-41	
2918869-1	1989	The human DNA excision repair gene ERCC-1 complements the ultraviolet light (UV) and mitomycin C (MMC) sensitivity of CHO mutants of complementation group 1.	Mitomycin	98-101	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	35-41	
3931911-2	1985	The bioassay makes use of a repair-deficient mutant of Chinese hamster ovary cells, UV-20, which is 40 to 60 times more sensitive to mitomycin C than its wild-type parent.	Mitomycin	133-144	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	84-89	
2420469-1	1986	The human excision repair gene ERCC-1 was cloned after DNA mediated gene transfer to the CHO mutant 43-3B, which is sensitive to ultraviolet light and mitomycin-C.	Mitomycin	151-162	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	31-37	
25115435-5	2014	Finally, in particular cell models of the interaction between ERCC1 and XPF, DNA repair was decreased, as evidenced by increased phosphorylation of the histone 2AX after exposure to mitomycin C, and genomic instability was increased, as determined by comparative genomic hybridization studies.	Mitomycin	182-193	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	62-67	
7404270-3	1980	Although these mutants resemble xeroderma pigmentosum human mutants with respect to their repair defect and cross-sensitivity to the carcinogen 4-nitroquinoline-1-oxide, one of two clones (UV-20) is characterized by extreme hypersensitivity to MMC (80-fold as compared to the wild type).	Mitomycin	244-247	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	189-194	
32034146-3	2020	Here, we show that TIP60, also known as KAT5, a haplo-insufficient tumor suppressor, directly acetylates XPF at Lys911 following UV irradiation or treatment with mitomycin C and that this acetylation is required for XPF-ERCC1 complex assembly and subsequent activation.	Mitomycin	162-173	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	220-225	
23580445-6	2013	In particular, the compound labeled NSC 130813 [4-[(6-chloro-2-methoxy-9-acridinyl)amino]-2-[(4-methyl-1-piperazinyl)methyl]] was shown to act synergistically with cisplatin and mitomycin C; to increase UVC-mediated cytotoxicity; to modify DNA repair as indicated by the staining of phosphorylated H2AX; and to disrupt interaction between ERCC1 and XPF in cells.	Mitomycin	178-189	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	339-344	
24817012-2	2014	As a consequence, ERCC1 mediates resistance to mitomycin C (MMC) and platinum chemotherapeutic agents and may predict treatment failure.	Mitomycin	47-58	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	18-23	
24817012-2	2014	As a consequence, ERCC1 mediates resistance to mitomycin C (MMC) and platinum chemotherapeutic agents and may predict treatment failure.	Mitomycin	60-63	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	18-23	
22547097-6	2012	Mutations in DNA binding domains of ERCC1-XPF render cells more sensitive to the crosslinking agent mitomycin C than to ultraviolet radiation, suggesting that the ICL repair function of ERCC1-XPF requires tighter substrate binding than NER.	Mitomycin	100-111	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	36-41	
22547097-6	2012	Mutations in DNA binding domains of ERCC1-XPF render cells more sensitive to the crosslinking agent mitomycin C than to ultraviolet radiation, suggesting that the ICL repair function of ERCC1-XPF requires tighter substrate binding than NER.	Mitomycin	100-111	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	186-191	
19713438-6	2009	Furthermore, we report that RAD51 foci are induced by cisplatin or mitomycin C independently of ERCC1, but that mitomycin C-induced HR measured in a reporter construct is impaired in ERCC1-defective cells.	Mitomycin	112-123	ERCC excision repair 1, endonuclease non-catalytic subunit	Homo sapiens	183-188