PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
20038529-1	2010	Poly(ADP-ribosyl)ation of the conserved multifunctional transcription factor CTCF was previously identified as important to maintain CTCF insulator and chromatin barrier functions.	poly(adp-ribosyl)	0-17	CCCTC-binding factor	Mus musculus	77-81	
15361875-4	2004	Chromatin immunoprecipitation-on-chip analysis documented that the link between CTCF and poly(ADP-ribosyl)ation extended to more than 140 mouse CTCF target sites.	poly(adp-ribosyl)	89-106	CCCTC-binding factor	Mus musculus	80-84	
15361875-4	2004	Chromatin immunoprecipitation-on-chip analysis documented that the link between CTCF and poly(ADP-ribosyl)ation extended to more than 140 mouse CTCF target sites.	poly(adp-ribosyl)	89-106	CCCTC-binding factor	Mus musculus	144-148	
15361875-6	2004	We suggest that poly(ADP-ribosyl)ation imparts chromatin insulator properties to CTCF at both imprinted and nonimprinted loci, which has implications for the regulation of expression domains and their demise in pathological lesions.	poly(adp-ribosyl)	16-33	CCCTC-binding factor	Mus musculus	81-85	
20038529-1	2010	Poly(ADP-ribosyl)ation of the conserved multifunctional transcription factor CTCF was previously identified as important to maintain CTCF insulator and chromatin barrier functions.	poly(adp-ribosyl)	0-17	CCCTC-binding factor	Mus musculus	133-137	
20038529-4	2010	Using this CTCF mutant, we demonstrated the requirement of poly(ADP-ribosyl)ation for optimal CTCF function in transcriptional activation of the p19ARF promoter and inhibition of cell proliferation.	poly(adp-ribosyl)	59-76	CCCTC-binding factor	Mus musculus	11-15	
20038529-4	2010	Using this CTCF mutant, we demonstrated the requirement of poly(ADP-ribosyl)ation for optimal CTCF function in transcriptional activation of the p19ARF promoter and inhibition of cell proliferation.	poly(adp-ribosyl)	59-76	CCCTC-binding factor	Mus musculus	94-98	
20038529-7	2010	These results suggest a model of CTCF regulation by poly(ADP-ribosyl)ation whereby CTCF and PARP-1 form functional complexes at sites along the DNA, producing a dynamic reversible modification of CTCF.	poly(adp-ribosyl)	52-69	CCCTC-binding factor	Mus musculus	33-37	
20038529-7	2010	These results suggest a model of CTCF regulation by poly(ADP-ribosyl)ation whereby CTCF and PARP-1 form functional complexes at sites along the DNA, producing a dynamic reversible modification of CTCF.	poly(adp-ribosyl)	52-69	CCCTC-binding factor	Mus musculus	83-87	
20038529-7	2010	These results suggest a model of CTCF regulation by poly(ADP-ribosyl)ation whereby CTCF and PARP-1 form functional complexes at sites along the DNA, producing a dynamic reversible modification of CTCF.	poly(adp-ribosyl)	52-69	CCCTC-binding factor	Mus musculus	83-87