PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
12532374-0	2003	Effect of flavonoids on MRP1-mediated transport in Panc-1 cells.	Flavonoids	10-20	ATP binding cassette subfamily C member 1	Homo sapiens	24-28	
12532374-1	2003	The purpose of this study was to identify the effects of dietary flavonoids, which are present in fruits, vegetables, and plant-derived beverages, on the transport of daunomycin (DNM) and vinblastine (VBL) in Panc-1 cells.	Flavonoids	65-75	dynamin 1	Homo sapiens	179-182	
12532374-1	2003	The purpose of this study was to identify the effects of dietary flavonoids, which are present in fruits, vegetables, and plant-derived beverages, on the transport of daunomycin (DNM) and vinblastine (VBL) in Panc-1 cells.	Daunorubicin	167-177	dynamin 1	Homo sapiens	179-182	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Genistein	13-22	dynamin 1	Homo sapiens	173-184	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Genistein	13-22	dynamin 1	Homo sapiens	224-235	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Quercetin	24-33	dynamin 1	Homo sapiens	173-184	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Quercetin	24-33	dynamin 1	Homo sapiens	224-235	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Chalcone	35-43	dynamin 1	Homo sapiens	173-184	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Chalcone	35-43	dynamin 1	Homo sapiens	224-235	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Silymarin	45-54	dynamin 1	Homo sapiens	173-184	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Silymarin	45-54	dynamin 1	Homo sapiens	224-235	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Phloretin	56-65	dynamin 1	Homo sapiens	173-184	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	Phloretin	56-65	dynamin 1	Homo sapiens	224-235	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	kaempferol	78-88	dynamin 1	Homo sapiens	173-184	
12532374-4	2003	Biochanin-A, genistein, quercetin, chalcone, silymarin, phloretin, morin, and kaempferol, at 100 microM concentrations, all significantly increased the accumulation of both DNM and VBL in Panc-1 cells, with morin increasing DNM and VBL accumulation by 546 +/- 50% (mean +/- SE, n = 9) and 553 +/- 37% (n = 9), respectively.	kaempferol	78-88	dynamin 1	Homo sapiens	224-235	
12532374-5	2003	Fisetin treatment significantly decreased the accumulation of both DNM and VBL.	fisetin	0-7	dynamin 1	Homo sapiens	67-78	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Flavonoids	42-52	ATP binding cassette subfamily C member 1	Homo sapiens	154-158	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Flavonoids	42-52	ATP binding cassette subfamily C member 1	Homo sapiens	235-239	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Chalcone	60-68	ATP binding cassette subfamily C member 1	Homo sapiens	154-158	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Chalcone	60-68	ATP binding cassette subfamily C member 1	Homo sapiens	235-239	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Silymarin	70-79	ATP binding cassette subfamily C member 1	Homo sapiens	154-158	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Silymarin	70-79	ATP binding cassette subfamily C member 1	Homo sapiens	235-239	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Phloretin	81-90	ATP binding cassette subfamily C member 1	Homo sapiens	154-158	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Phloretin	81-90	ATP binding cassette subfamily C member 1	Homo sapiens	235-239	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Genistein	92-101	ATP binding cassette subfamily C member 1	Homo sapiens	154-158	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Genistein	92-101	ATP binding cassette subfamily C member 1	Homo sapiens	235-239	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Quercetin	103-112	ATP binding cassette subfamily C member 1	Homo sapiens	154-158	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Quercetin	103-112	ATP binding cassette subfamily C member 1	Homo sapiens	235-239	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	kaempferol	131-141	ATP binding cassette subfamily C member 1	Homo sapiens	154-158	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	kaempferol	131-141	ATP binding cassette subfamily C member 1	Homo sapiens	235-239	
12532374-9	2003	These results therefore indicate that the flavonoids morin, chalcone, silymarin, phloretin, genistein, quercetin, biochanin A, and kaempferol can inhibit MRP1-mediated drug transport, effects that may involve binding interactions with MRP1, as well as modulation of GSH concentrations.	Glutathione	266-269	ATP binding cassette subfamily C member 1	Homo sapiens	154-158