PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	100-112	plasminogen	Homo sapiens	50-53	
1599413-9	1992	In addition, the change in carbohydrate content also alters Pg binding to U937 cells.	Carbohydrates	27-39	plasminogen	Homo sapiens	60-62	
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	100-112	plasminogen	Homo sapiens	59-62	
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	100-112	plasminogen	Homo sapiens	59-62	
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	100-112	plasminogen	Homo sapiens	59-62	
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	169-181	plasminogen	Homo sapiens	50-53	
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	169-181	plasminogen	Homo sapiens	59-62	
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	169-181	plasminogen	Homo sapiens	59-62	
3394116-5	1988	As to the degradation rate of two isozymes of Glu-plg (Glu-plg I and II), Glu-plg II containing one carbohydrate chain was degraded faster than Glu-plg I containing two carbohydrate chains.	Carbohydrates	169-181	plasminogen	Homo sapiens	59-62	
6129717-4	1982	The amounts of carbohydrate moieties on the heavy chain of plasmin may influence the release of N-terminal peptide from Glu-plasmin.	Carbohydrates	15-27	plasminogen	Homo sapiens	59-66	
3442597-0	1987	Structural relationship of an apolipoprotein (a) phenotype (570 kDa) to plasminogen: homologous kringle domains are linked by carbohydrate-rich regions.	Carbohydrates	126-138	plasminogen	Homo sapiens	72-83	
2946332-5	1986	Plasmin degraded the glycocalicin into two small carbohydrate-poor peptides and into a larger carbohydrate-rich fragment.	Carbohydrates	49-61	plasminogen	Homo sapiens	0-7	
2946332-5	1986	Plasmin degraded the glycocalicin into two small carbohydrate-poor peptides and into a larger carbohydrate-rich fragment.	Carbohydrates	94-106	plasminogen	Homo sapiens	0-7	
3280426-1	1988	Human plasminogen is a beta-globulin (2% carbohydrate, molecular weight 90 KD), which in its native form has NH2-terminal glutamic acid (Glu-plasminogen) whose primary structure is known (31, 37, 38).	Carbohydrates	41-53	plasminogen	Homo sapiens	6-17	
3280426-8	1988	Two types of Glu-plasminogen occur in human plasma, which differ in their carbohydrate composition as well as in their content of sialic acid.	Carbohydrates	74-86	plasminogen	Homo sapiens	17-28	
6129717-4	1982	The amounts of carbohydrate moieties on the heavy chain of plasmin may influence the release of N-terminal peptide from Glu-plasmin.	Carbohydrates	15-27	plasminogen	Homo sapiens	124-131	
4113166-0	1972	Localisation of carbohydrate in the subunits of human fibinogen and its plasmin induced fragments.	Carbohydrates	16-28	plasminogen	Homo sapiens	72-79	
6750606-6	1982	The carbohydrate-containing Mr 83,000 subunit was enzymatically inactive but stabilized the Mr 48,000 subunit at 37 degrees C. Trypsin, plasmin, and plasma or urinary kallikrein cleaved carboxypeptidase N into lower molecular weight active fragments, which were unstable at 37 degrees C. Cleavage of the Mr 48,000 subunit with the same enzymes increased activity and yielded fragments of Mr 29,000 or less.	Carbohydrates	4-16	plasminogen	Homo sapiens	136-143