PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25637299-3	2015	In the present study, we show that cspB, cspG and cspI, the members of cspA family, known to be induced in response to cold shock, are regulated by cyclic AMP receptor protein (CRP) , a global regulator involved in sugar metabolism, during growth at 37  C as well as at 15  C, as seen by green fluorescent protein (gfp) promoter fusions assays.	Sugars	215-220	catabolite gene activator protein	Escherichia coli	148-175	
25637299-3	2015	In the present study, we show that cspB, cspG and cspI, the members of cspA family, known to be induced in response to cold shock, are regulated by cyclic AMP receptor protein (CRP) , a global regulator involved in sugar metabolism, during growth at 37  C as well as at 15  C, as seen by green fluorescent protein (gfp) promoter fusions assays.	Sugars	215-220	catabolite gene activator protein	Escherichia coli	177-180	
19703305-1	2009	BACKGROUND: Escherichia coli exhibits diauxic growth in sugar mixtures due to CRP-mediated catabolite repression and inducer exclusion related to phosphotransferase system enzyme activity.	Sugars	56-61	catabolite gene activator protein	Escherichia coli	78-81	
21926233-3	2011	Here, we show that the cyclic AMP receptor protein (CRP), a global regulator involved in sugar metabolism, upregulates cspE in E. coli.	Sugars	89-94	catabolite gene activator protein	Escherichia coli	23-50	
21926233-3	2011	Here, we show that the cyclic AMP receptor protein (CRP), a global regulator involved in sugar metabolism, upregulates cspE in E. coli.	Sugars	89-94	catabolite gene activator protein	Escherichia coli	52-55	
19703305-2	2009	Replacement of the native crp gene with a catabolite repression mutant (referred to as crp*) enables co-utilization of glucose and other sugars in E. coli.	Sugars	137-143	catabolite gene activator protein	Escherichia coli	26-29	
19703305-2	2009	Replacement of the native crp gene with a catabolite repression mutant (referred to as crp*) enables co-utilization of glucose and other sugars in E. coli.	Sugars	137-143	catabolite gene activator protein	Escherichia coli	87-90	
15520470-9	2004	Analysis of these operons supports the hypothesis that CRP is not only a regulator of genes required for catabolism of sugars other than glucose, but also regulates the expression of a large number of other genes in E.coli.	Sugars	119-125	catabolite gene activator protein	Escherichia coli	55-58	
12007797-8	2002	Consequently, CAP- or CcpA-dependent catabolite repression serves as an autoregulatory device to keep sugar utilization at a certain level rather than to establish preferential utilization of certain carbon sources.	Sugars	102-107	catabolite gene activator protein	Escherichia coli	14-17	
3015882-3	1986	When tested, Escherichia coli crp deletion strains harboring the clones regained their ability to pleiotropically ferment catabolite-repressible sugars.	Sugars	145-151	catabolite gene activator protein	Escherichia coli	30-33	
3004951-2	1985	Adenylate cyclase deficient cells harbouring the mutant (crp*) plasmids exhibited a variety of fermentation profiles on MacConkey indicator plates containing various sugars.	Sugars	166-172	catabolite gene activator protein	Escherichia coli	57-60