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TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M @CHEMICAL$ in the presence of 10 pg/ml human recombinant interleukin-5 (@GENE$) and activated with formyl-met-leu-phe (FMLP) + cytochalasin B (CB).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml @CHEMICAL$ (rhIL-5) and activated with @GENE$ (FMLP) + cytochalasin B (CB).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml human recombinant interleukin-5 (@CHEMICAL$) and activated with @GENE$ (FMLP) + cytochalasin B (CB).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml @CHEMICAL$ (rhIL-5) and activated with formyl-met-leu-phe (@GENE$) + cytochalasin B (CB).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml human recombinant interleukin-5 (@CHEMICAL$) and activated with formyl-met-leu-phe (@GENE$) + cytochalasin B (CB).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml @CHEMICAL$ (rhIL-5) and activated with formyl-met-leu-phe (FMLP) + @GENE$ (CB).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml human recombinant interleukin-5 (@CHEMICAL$) and activated with formyl-met-leu-phe (FMLP) + @GENE$ (CB).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml @CHEMICAL$ (rhIL-5) and activated with formyl-met-leu-phe (FMLP) + cytochalasin B (@GENE$).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Eosinophils were isolated from peripheral blood, treated with either buffer or 10(-)10 M to 10(-)6 M FP in the presence of 10 pg/ml human recombinant interleukin-5 (@CHEMICAL$) and activated with formyl-met-leu-phe (FMLP) + cytochalasin B (@GENE$).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: @CHEMICAL$/CB-stimulated translocation of @GENE$ to the nuclear envelope assessed by specific immunohistochemical staining also was blocked by FP.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: FMLP/@CHEMICAL$-stimulated translocation of @GENE$ to the nuclear envelope assessed by specific immunohistochemical staining also was blocked by FP.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: FMLP/CB-stimulated translocation of @CHEMICAL$ to the nuclear envelope assessed by specific immunohistochemical staining also was blocked by @GENE$.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: By contrast, membrane expression of @CHEMICAL$, which was not minimal at 30 min, was substantial at 48 h for eosinophils treated with > 10(-)10 M @GENE$, and inhibition of LTC4 synthesis was reversed by exogenous arachidonic acid (AA).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: By contrast, membrane expression of @CHEMICAL$, which was not minimal at 30 min, was substantial at 48 h for eosinophils treated with > 10(-)10 M FP, and inhibition of @GENE$ synthesis was reversed by exogenous arachidonic acid (AA).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: By contrast, membrane expression of @CHEMICAL$, which was not minimal at 30 min, was substantial at 48 h for eosinophils treated with > 10(-)10 M FP, and inhibition of LTC4 synthesis was reversed by exogenous @GENE$ (AA).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: By contrast, membrane expression of @CHEMICAL$, which was not minimal at 30 min, was substantial at 48 h for eosinophils treated with > 10(-)10 M FP, and inhibition of LTC4 synthesis was reversed by exogenous arachidonic acid (@GENE$).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: We find that @CHEMICAL$ causes a decrease in stimulated eosinophil secretion of LTC4 that is regulated by @GENE$ (PLA2).
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: We find that @CHEMICAL$ causes a decrease in stimulated eosinophil secretion of LTC4 that is regulated by phospholipase A2 (@GENE$).
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: We find that FP causes a decrease in stimulated eosinophil secretion of @CHEMICAL$ that is regulated by @GENE$ (PLA2).
CPR:9
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: We find that FP causes a decrease in stimulated eosinophil secretion of @CHEMICAL$ that is regulated by phospholipase A2 (@GENE$).
CPR:9
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Inhibition of @CHEMICAL$ synthesis precedes the global cytotoxic effects of FP as indicated by the simultaneous upregulation of @GENE$ expression.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Inhibition of LTC4 synthesis precedes the global cytotoxic effects of @CHEMICAL$ as indicated by the simultaneous upregulation of @GENE$ expression.
CPR:3
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: @CHEMICAL$ treatment decreases 3H-nisoxetine binding and @GENE$ mRNA in SK-N-SHSY5Y cells.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Desipramine treatment decreases @CHEMICAL$ binding and @GENE$ mRNA in SK-N-SHSY5Y cells.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Desipramine treatment decreases 3H-nisoxetine binding and @CHEM-GENE$ mRNA in SK-N-SHSY5Y cells.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The antidepressant @CHEMICAL$ has been shown to decrease synaptic membrane concentrations of the norepinephrine re-uptake transporter (@GENE$) in vivo and in vitro, on both an acute and a chronic basis.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The antidepressant @CHEMICAL$ has been shown to decrease synaptic membrane concentrations of the @GENE$ (NET) in vivo and in vitro, on both an acute and a chronic basis.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The antidepressant desipramine has been shown to decrease synaptic membrane concentrations of the @CHEMICAL$ re-uptake transporter (@GENE$) in vivo and in vitro, on both an acute and a chronic basis.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The antidepressant desipramine has been shown to decrease synaptic membrane concentrations of the @CHEM-GENE$ (NET) in vivo and in vitro, on both an acute and a chronic basis.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: In this study, we treated SK-N-SHSY5Y cells with 100 nM @CHEMICAL$ for 24 or 72 h, and measured 3H-nisoxetine binding (as an estimate of @GENE$) and NET mRNA by quantitative reverse transcription polymerase chain reaction.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: In this study, we treated SK-N-SHSY5Y cells with 100 nM @CHEMICAL$ for 24 or 72 h, and measured 3H-nisoxetine binding (as an estimate of NETs) and @GENE$ mRNA by quantitative reverse transcription polymerase chain reaction.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: In this study, we treated SK-N-SHSY5Y cells with 100 nM desipramine for 24 or 72 h, and measured @CHEMICAL$ binding (as an estimate of @GENE$) and NET mRNA by quantitative reverse transcription polymerase chain reaction.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: In this study, we treated SK-N-SHSY5Y cells with 100 nM desipramine for 24 or 72 h, and measured @CHEMICAL$ binding (as an estimate of NETs) and @GENE$ mRNA by quantitative reverse transcription polymerase chain reaction.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: We conclude that decreased @CHEMICAL$ synthesis may contribute to the chronic, but not acute, effect of @GENE$ to downregulate the NET.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: We conclude that decreased NET synthesis may contribute to the chronic, but not acute, effect of @CHEMICAL$ to downregulate the @GENE$.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Inhibition of the @CHEM-GENE$ by cisapride: affinity for open and inactivated states. 1 Cisapride is a prokinetic agent which has been associated with QT prolongation, torsades de pointes and cardiac arrest.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Inhibition of the @CHEM-GENE$ by cisapride: affinity for open and inactivated states. 1 Cisapride is a prokinetic agent which has been associated with QT prolongation, torsades de pointes and cardiac arrest.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Inhibition of the @CHEMICAL$ by @GENE$: affinity for open and inactivated states. 1 Cisapride is a prokinetic agent which has been associated with QT prolongation, torsades de pointes and cardiac arrest.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Inhibition of the @CHEMICAL$ by cisapride: affinity for open and inactivated states. 1 @GENE$ is a prokinetic agent which has been associated with QT prolongation, torsades de pointes and cardiac arrest.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The cellular mechanism for these observations is high affinity blockade of @CHEMICAL$ (encoded by HERG). 2 In a chronic transfection model using CHO-K1 cells, @GENE$ inhibited HERG tail currents after a step to +25 mV with similar potency at room and physiological temperatures (IC50 16. 4 nM at 20-22 degrees C and 23.6 nM at 37 degrees C). 3 Channel inhibition exhibited time-, voltage- and frequency-dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The cellular mechanism for these observations is high affinity blockade of IKr (encoded by @CHEMICAL$). 2 In a chronic transfection model using CHO-K1 cells, @GENE$ inhibited HERG tail currents after a step to +25 mV with similar potency at room and physiological temperatures (IC50 16. 4 nM at 20-22 degrees C and 23.6 nM at 37 degrees C). 3 Channel inhibition exhibited time-, voltage- and frequency-dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The cellular mechanism for these observations is high affinity blockade of IKr (encoded by HERG). 2 In a chronic transfection model using CHO-K1 cells, @CHEMICAL$ inhibited @GENE$ tail currents after a step to +25 mV with similar potency at room and physiological temperatures (IC50 16. 4 nM at 20-22 degrees C and 23.6 nM at 37 degrees C). 3 Channel inhibition exhibited time-, voltage- and frequency-dependence.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These findings suggested affinity for open and/or inactivated channel states. 4 Inactivation was significantly accelerated by cisapride in a concentration-dependent manner and there was a small (-7 mV) shift in the voltage dependence of steady state inactivation. 5 Channel blockade by cisapride was modulated by [K+]o, with a 26% reduction in the potency of channel blockade when [@CHEMICAL$]o was increased from 1 to 10 mM. 6 In conclusion, @GENE$ channel inhibition by cisapride exhibits features consistent with open and inactivated state binding and is sensitive to external potassium concentration.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These findings suggested affinity for open and/or inactivated channel states. 4 Inactivation was significantly accelerated by cisapride in a concentration-dependent manner and there was a small (-7 mV) shift in the voltage dependence of steady state inactivation. 5 Channel blockade by cisapride was modulated by [K+]o, with a 26% reduction in the potency of channel blockade when [K+]o was increased from 1 to 10 mM. 6 In conclusion, @CHEMICAL$ channel inhibition by @GENE$ exhibits features consistent with open and inactivated state binding and is sensitive to external potassium concentration.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These findings suggested affinity for open and/or inactivated channel states. 4 Inactivation was significantly accelerated by cisapride in a concentration-dependent manner and there was a small (-7 mV) shift in the voltage dependence of steady state inactivation. 5 Channel blockade by cisapride was modulated by [K+]o, with a 26% reduction in the potency of channel blockade when [K+]o was increased from 1 to 10 mM. 6 In conclusion, @CHEMICAL$ channel inhibition by cisapride exhibits features consistent with open and inactivated state binding and is sensitive to external @GENE$ concentration.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These findings suggested affinity for open and/or inactivated channel states. 4 Inactivation was significantly accelerated by @CHEMICAL$ in a concentration-dependent manner and there was a small (-7 mV) shift in the voltage dependence of steady state inactivation. 5 Channel blockade by cisapride was modulated by [K+]o, with a 26% reduction in the potency of channel blockade when [K+]o was increased from 1 to 10 mM. 6 In conclusion, @GENE$ channel inhibition by cisapride exhibits features consistent with open and inactivated state binding and is sensitive to external potassium concentration.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These findings suggested affinity for open and/or inactivated channel states. 4 Inactivation was significantly accelerated by cisapride in a concentration-dependent manner and there was a small (-7 mV) shift in the voltage dependence of steady state inactivation. 5 Channel blockade by @CHEMICAL$ was modulated by [K+]o, with a 26% reduction in the potency of channel blockade when [K+]o was increased from 1 to 10 mM. 6 In conclusion, @GENE$ channel inhibition by cisapride exhibits features consistent with open and inactivated state binding and is sensitive to external potassium concentration.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These findings suggested affinity for open and/or inactivated channel states. 4 Inactivation was significantly accelerated by cisapride in a concentration-dependent manner and there was a small (-7 mV) shift in the voltage dependence of steady state inactivation. 5 Channel blockade by cisapride was modulated by [@CHEMICAL$]o, with a 26% reduction in the potency of channel blockade when [K+]o was increased from 1 to 10 mM. 6 In conclusion, @GENE$ channel inhibition by cisapride exhibits features consistent with open and inactivated state binding and is sensitive to external potassium concentration.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Comparison of the novel antipsychotic @CHEMICAL$ with clozapine and olanzapine: inhibition of dorsal raphe cell firing and the role of @GENE$ activation.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Comparison of the novel antipsychotic ziprasidone with @CHEMICAL$ and olanzapine: inhibition of dorsal raphe cell firing and the role of @GENE$ activation.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Comparison of the novel antipsychotic ziprasidone with clozapine and @CHEMICAL$: inhibition of dorsal raphe cell firing and the role of @GENE$ activation.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: @CHEMICAL$ is a novel antipsychotic agent which binds with high affinity to 5-HT1A receptors (Ki = 3.4 nM), in addition to @GENE$, 5-HT2, and D2 sites.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: @CHEMICAL$ is a novel antipsychotic agent which binds with high affinity to 5-HT1A receptors (Ki = 3.4 nM), in addition to 5-HT1D, @GENE$, and D2 sites.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: @CHEMICAL$ is a novel antipsychotic agent which binds with high affinity to 5-HT1A receptors (Ki = 3.4 nM), in addition to 5-HT1D, 5-HT2, and @GENE$ sites.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: @CHEMICAL$ is a novel antipsychotic agent which binds with high affinity to @GENE$ (Ki = 3.4 nM), in addition to 5-HT1D, 5-HT2, and D2 sites.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: While it is an antagonist at these latter receptors, @CHEMICAL$ behaves as a 5-HT1A agonist in vitro in @GENE$ measurements.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: While it is an antagonist at these latter receptors, @CHEMICAL$ behaves as a @GENE$ agonist in vitro in adenylate cyclase measurements.
CPR:5
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: While it is an antagonist at these latter receptors, ziprasidone behaves as a 5-HT1A agonist in vitro in @CHEM-GENE$ measurements.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: While it is an antagonist at these latter receptors, ziprasidone behaves as a @CHEMICAL$ agonist in vitro in @GENE$ cyclase measurements.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The goal of the present study was to examine the @CHEMICAL$ properties of @GENE$ in vivo using as a marker of central 5-HT1A activity the inhibition of firing of serotonin-containing neurons in the dorsal raphe nucleus.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The goal of the present study was to examine the 5-HT1A properties of @CHEMICAL$ in vivo using as a marker of central @GENE$ activity the inhibition of firing of serotonin-containing neurons in the dorsal raphe nucleus.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The goal of the present study was to examine the @CHEMICAL$ properties of ziprasidone in vivo using as a marker of central 5-HT1A activity the inhibition of firing of @GENE$-containing neurons in the dorsal raphe nucleus.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The goal of the present study was to examine the 5-HT1A properties of ziprasidone in vivo using as a marker of central @CHEMICAL$ activity the inhibition of firing of @GENE$-containing neurons in the dorsal raphe nucleus.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Pretreatment with the @CHEMICAL$ antagonist @GENE$ (10 micrograms/kg i.v.) prevented the ziprasidone-induced inhibition; the same dose of WAY-100,635 had little effect on the inhibition produced by clozapine and olanzapine.
CPR:6
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Pretreatment with the @CHEMICAL$ antagonist WAY-100,635 (10 micrograms/kg i.v.) prevented the @GENE$-induced inhibition; the same dose of WAY-100,635 had little effect on the inhibition produced by clozapine and olanzapine.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Pretreatment with the @CHEMICAL$ antagonist WAY-100,635 (10 micrograms/kg i.v.) prevented the ziprasidone-induced inhibition; the same dose of @GENE$ had little effect on the inhibition produced by clozapine and olanzapine.
CPR:6
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Pretreatment with the @CHEMICAL$ antagonist WAY-100,635 (10 micrograms/kg i.v.) prevented the ziprasidone-induced inhibition; the same dose of WAY-100,635 had little effect on the inhibition produced by @GENE$ and olanzapine.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Pretreatment with the @CHEMICAL$ antagonist WAY-100,635 (10 micrograms/kg i.v.) prevented the ziprasidone-induced inhibition; the same dose of WAY-100,635 had little effect on the inhibition produced by clozapine and @GENE$.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Because all three agents also bind to @CHEMICAL$, antagonists of which inhibit @GENE$ neuronal firing, this aspect of their pharmacology was assessed with desipramine (DMI), a NE re-uptake blocker previously shown to reverse the effects of alpha 1 antagonists on raphe unit activity.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Because all three agents also bind to @CHEMICAL$, antagonists of which inhibit serotonin neuronal firing, this aspect of their pharmacology was assessed with @GENE$ (DMI), a NE re-uptake blocker previously shown to reverse the effects of alpha 1 antagonists on raphe unit activity.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Because all three agents also bind to @CHEMICAL$, antagonists of which inhibit serotonin neuronal firing, this aspect of their pharmacology was assessed with desipramine (@GENE$), a NE re-uptake blocker previously shown to reverse the effects of alpha 1 antagonists on raphe unit activity.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Because all three agents also bind to @CHEMICAL$, antagonists of which inhibit serotonin neuronal firing, this aspect of their pharmacology was assessed with desipramine (DMI), a @GENE$ re-uptake blocker previously shown to reverse the effects of alpha 1 antagonists on raphe unit activity.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These profiles suggest a mechanism of action for each agent, @CHEMICAL$ agonism for @GENE$ and alpha 1 antagonism for clozapine and olanzapine.
CPR:5
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These profiles suggest a mechanism of action for each agent, @CHEMICAL$ agonism for ziprasidone and alpha 1 antagonism for @GENE$ and olanzapine.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: These profiles suggest a mechanism of action for each agent, @CHEMICAL$ agonism for ziprasidone and alpha 1 antagonism for clozapine and @GENE$.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The @CHEMICAL$ agonist activity reported here clearly distinguishes @GENE$ from currently available antipsychotic agents and suggests that this property may play a significant role in its pharmacologic actions.
CPR:5
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Reduction of oral @CHEMICAL$ self-administration in rats by @GENE$ inhibitors.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Reduction of oral ethanol self-administration in rats by @CHEM-GENE$ inhibitors.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that @CHEMICAL$ (MAO) inhibitors, which increase the synaptic availability of @GENE$ and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that monoamine oxidase (@CHEMICAL$) inhibitors, which increase the synaptic availability of @GENE$ and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that @CHEMICAL$ (MAO) inhibitors, which increase the synaptic availability of serotonin and @GENE$ by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that monoamine oxidase (@CHEMICAL$) inhibitors, which increase the synaptic availability of serotonin and @GENE$ by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of @CHEMICAL$ and serotonin in the control of ethanol intake in animals suggests that @GENE$ (MAO) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of @CHEMICAL$ and serotonin in the control of ethanol intake in animals suggests that monoamine oxidase (@GENE$) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that @CHEMICAL$ (MAO) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of @GENE$ dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that monoamine oxidase (@CHEMICAL$) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of @GENE$ dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and @CHEMICAL$ in the control of ethanol intake in animals suggests that @GENE$ (MAO) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and @CHEMICAL$ in the control of ethanol intake in animals suggests that monoamine oxidase (@GENE$) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of @CHEMICAL$ intake in animals suggests that @GENE$ (MAO) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of @CHEMICAL$ intake in animals suggests that monoamine oxidase (@GENE$) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that @CHEM-GENE$ (MAO) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that @CHEMICAL$ oxidase (@GENE$) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The aim of the present study was, therefore, to evaluate several @CHEMICAL$ inhibitors for their capacity to affect @GENE$ self-administration in rats trained to self-administer ethanol (10% v/v) orally in a free-choice two-lever operant task.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The aim of the present study was, therefore, to evaluate several @CHEMICAL$ inhibitors for their capacity to affect ethanol self-administration in rats trained to self-administer @GENE$ (10% v/v) orally in a free-choice two-lever operant task.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The nonselective and irreversible @CHEMICAL$ inhibitors, @GENE$ (3-10 mg/kg), tranylcypromine (1-3 mg/kg), and nialamide (30 mg/kg), decreased rates of responding maintained by ethanol reinforcement.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The nonselective and irreversible @CHEMICAL$ inhibitors, phenelzine (3-10 mg/kg), @GENE$ (1-3 mg/kg), and nialamide (30 mg/kg), decreased rates of responding maintained by ethanol reinforcement.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The nonselective and irreversible @CHEMICAL$ inhibitors, phenelzine (3-10 mg/kg), tranylcypromine (1-3 mg/kg), and @GENE$ (30 mg/kg), decreased rates of responding maintained by ethanol reinforcement.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The nonselective and irreversible @CHEMICAL$ inhibitors, phenelzine (3-10 mg/kg), tranylcypromine (1-3 mg/kg), and nialamide (30 mg/kg), decreased rates of responding maintained by @GENE$ reinforcement.
false
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The reversible @CHEMICAL$ inhibitor, @GENE$ (0.3-3 mg/kg), and the irreversible MAO-A inhibitor, clorgyline (10-30 mg/kg), also reduced ethanol self-administration.
CPR:4
TASK: the task is to classify relations between a chemical and a gene for a sentence. INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence. OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters: CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR CPR:6, which includes ANTAGONIST CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF false, which indicates no relations The following examples are provided: Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin. Example-1 A: false Q: The reversible MAO-A inhibitor, @CHEMICAL$ (0.3-3 mg/kg), and the irreversible @GENE$ inhibitor, clorgyline (10-30 mg/kg), also reduced ethanol self-administration.
false