PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33102517-2	2020	RCC1 combines with chromatin and Ran to establish a concentration gradient of RanGTP, thereby participating in a series of cell physiological activities.	rangtp	78-84	regulator of chromosome condensation 1	Homo sapiens	0-4	
30565836-2	2019	This involves the direct action of RanGTP, which is generated in the nucleus by the chromatin-associated nucleotide exchange factor, RCC1.	rangtp	35-41	regulator of chromosome condensation 1	Homo sapiens	133-137	
17761537-7	2007	Sorbitol stress also slowed RCC1 mobility in the nucleus, which is predicted to reduce RCC1 dissociation from chromatin and RanGTP production.	rangtp	124-130	regulator of chromosome condensation 1	Homo sapiens	28-32	
23434370-6	2013	Inhibition of MRN function in mammalian cells triggers a metaphase delay and disrupts the RCC1-dependent RanGTP gradient.	rangtp	105-111	regulator of chromosome condensation 1	Homo sapiens	90-94	
23319601-5	2013	The overexpression of RCC1, the guanine nucleotide exchange factor for Ran, induced steeper mitotic RanGTP gradients in HFF-1 cells, showing the critical role of RCC1 levels in the regulation of mitosis by Ran.	rangtp	100-106	regulator of chromosome condensation 1	Homo sapiens	22-26	
20465562-3	2010	In this study, using the temperature-sensitive RCC1 mutant tsBN2, a baby hamster kidney 21 cell line, we found that a lack of RCC1 activity inhibited NPC formation during interphase, suggesting that RanGTP is required for NPC formation during interphase in mammalian cells.	rangtp	199-205	regulator of chromosome condensation 1	Homo sapiens	126-130	
18712773-5	2008	We found that actinomycin D reduced the binding affinity of RCC1 to the mitotic chromosome, which led to a reduction of RanGTP level.	rangtp	120-126	regulator of chromosome condensation 1	Homo sapiens	60-64	
19060893-2	2009	We have found that the nuclear RanGTP level is diminished during the early stages of apoptosis, which correlates with immobilization of RCC1 on the chromosomes.	rangtp	31-37	regulator of chromosome condensation 1	Homo sapiens	136-140	
19060893-6	2009	Therefore, we propose that RCC1 reads the histone code created by caspase-activated Mst1 to initiate apoptosis by reducing the level of RanGTP in the nucleus.	rangtp	136-142	regulator of chromosome condensation 1	Homo sapiens	27-31	
15014043-0	2004	Phosphorylation of RCC1 in mitosis is essential for producing a high RanGTP concentration on chromosomes and for spindle assembly in mammalian cells.	rangtp	69-75	regulator of chromosome condensation 1	Homo sapiens	19-23	
15014043-4	2004	This phosphorylation is necessary for RCC1 to generate RanGTP on mitotic chromosomes in mammalian cells, which in turn is required for spindle assembly and chromosome segregation.	rangtp	55-61	regulator of chromosome condensation 1	Homo sapiens	38-42	
15014043-5	2004	Moreover, phosphorylation of the NLS of RCC1 is required to prevent the binding of importin alpha and beta to RCC1, thereby allowing RCC1 to couple RanGTP production to chromosome binding.	rangtp	148-154	regulator of chromosome condensation 1	Homo sapiens	40-44	
15014043-5	2004	Moreover, phosphorylation of the NLS of RCC1 is required to prevent the binding of importin alpha and beta to RCC1, thereby allowing RCC1 to couple RanGTP production to chromosome binding.	rangtp	148-154	regulator of chromosome condensation 1	Homo sapiens	110-114	
15014043-5	2004	Moreover, phosphorylation of the NLS of RCC1 is required to prevent the binding of importin alpha and beta to RCC1, thereby allowing RCC1 to couple RanGTP production to chromosome binding.	rangtp	148-154	regulator of chromosome condensation 1	Homo sapiens	110-114	
12604592-0	2003	A mechanism of coupling RCC1 mobility to RanGTP production on the chromatin in vivo.	rangtp	41-47	regulator of chromosome condensation 1	Homo sapiens	24-28	
12604592-2	2003	Although the chromosome-associated enzyme RCC1 is responsible for RanGTP production, the mechanism of generating and maintaining the RanGTP gradient in vivo remains unknown.	rangtp	66-72	regulator of chromosome condensation 1	Homo sapiens	42-46	
12604592-4	2003	Our kinetic modeling suggests that RCC1 couples its catalytic activity to chromosome binding to generate a RanGTP gradient.	rangtp	107-113	regulator of chromosome condensation 1	Homo sapiens	35-39	
12604592-7	2003	Successful nucleotide exchange dissociates the binary complex, permitting the release of RCC1 and RanGTP from the chromatin and the production of RanGTP on the chromatin surface.	rangtp	146-152	regulator of chromosome condensation 1	Homo sapiens	89-93	
12606574-3	2003	The steepness of the RanGTP gradient appears limited by both the cytoplasmic RanGAP concentration and the imperfect retention of nuclear RanGTP by nuclear pore complexes (NPCs), but not by the nucleotide exchange activity of RCC1.	rangtp	21-27	regulator of chromosome condensation 1	Homo sapiens	225-229	
10875935-6	2000	RanGTP is produced from RanGDP through nucleotide exchange mediated by RanGEF (RCC1).	rangtp	0-6	regulator of chromosome condensation 1	Homo sapiens	79-83	
9351834-2	1997	Ran"s nucleotide-bound state is determined by the chromatin-bound exchange factor RCC1 generating RanGTP in the nucleus and the cytoplasmic GTPase activating protein RanGAP1 depleting RanGTP from the cytoplasm.	rangtp	98-104	regulator of chromosome condensation 1	Homo sapiens	82-86	
9351834-2	1997	Ran"s nucleotide-bound state is determined by the chromatin-bound exchange factor RCC1 generating RanGTP in the nucleus and the cytoplasmic GTPase activating protein RanGAP1 depleting RanGTP from the cytoplasm.	rangtp	184-190	regulator of chromosome condensation 1	Homo sapiens	82-86