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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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 @CHEMICAL$ and one metabolite of a neuroleptic (haloperidol metabolite) for the @GENE$ with [3H]imipramine, [3H]nisoxetine, and [3H]WIN35428, respectively. | 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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 neuroleptics and one metabolite of a neuroleptic (@CHEMICAL$ metabolite) for the @GENE$ with [3H]imipramine, [3H]nisoxetine, and [3H]WIN35428, respectively. | 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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 neuroleptics and one metabolite of a neuroleptic (haloperidol metabolite) for the @CHEM-GENE$ with [3H]imipramine, [3H]nisoxetine, and [3H]WIN35428, respectively. | 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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 neuroleptics and one metabolite of a neuroleptic (haloperidol metabolite) for the @CHEM-GENE$ with [3H]imipramine, [3H]nisoxetine, and [3H]WIN35428, respectively. | 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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 neuroleptics and one metabolite of a neuroleptic (haloperidol metabolite) for the @CHEM-GENE$ with [3H]imipramine, [3H]nisoxetine, and [3H]WIN35428, respectively. | 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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 neuroleptics and one metabolite of a neuroleptic (haloperidol metabolite) for the @CHEMICAL$ with @GENE$, [3H]nisoxetine, and [3H]WIN35428, respectively. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 neuroleptics and one metabolite of a neuroleptic (haloperidol metabolite) for the @CHEMICAL$ with [3H]imipramine, @GENE$, and [3H]WIN35428, respectively. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Using radioligand binding techniques, we determined the equilibrium dissociation constants (K(D)) for 37 neuroleptics and one metabolite of a neuroleptic (haloperidol metabolite) for the @CHEMICAL$ with [3H]imipramine, [3H]nisoxetine, and @GENE$, respectively. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the @CHEM-GENE$ were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the human @CHEMICAL$ transporter were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @GENE$, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were @GENE$, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were @CHEMICAL$, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @GENE$, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, @GENE$, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, @CHEMICAL$, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @GENE$, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, fluperlapine, @GENE$, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, @CHEMICAL$, and ziprasidone (K(D) 24-39 nM); and at the @GENE$, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, fluperlapine, chlorpromazine, and @GENE$ (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, chlorpromazine, and @CHEMICAL$ (K(D) 24-39 nM); and at the @GENE$, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @GENE$ transporter, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @CHEM-GENE$, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, @GENE$, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @CHEMICAL$, @GENE$, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, @GENE$, chlorprothixene, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @CHEMICAL$, chlorpromazine, @GENE$, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, @GENE$, and promazine (K(D) 19-25 nM). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @CHEMICAL$, chlorpromazine, zotepine, @GENE$, and promazine (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the @CHEMICAL$ were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, chlorprothixene, and @GENE$ (K(D) 19-25 nM). | 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: Among neuroleptics, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @CHEMICAL$, chlorpromazine, zotepine, chlorprothixene, and @GENE$ (K(D) 19-25 nM). | 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: Among @CHEMICAL$, the four most potent compounds at the @GENE$ were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the norepinephrine transporter, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: Among @CHEMICAL$, the four most potent compounds at the human serotonin transporter were triflupromazine, fluperlapine, chlorpromazine, and ziprasidone (K(D) 24-39 nM); and at the @GENE$, chlorpromazine, zotepine, chlorprothixene, and promazine (K(D) 19-25 nM). | 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: At the @CHEM-GENE$, only pimozide (K(D) = 69+/-3) ziprasidone (K(D) = 76+/-5) had notable potency. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: At the @CHEMICAL$, only @GENE$ (K(D) = 69+/-3) ziprasidone (K(D) = 76+/-5) had notable potency. | 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: At the @CHEMICAL$, only pimozide (K(D) = 69+/-3) @GENE$ (K(D) = 76+/-5) had notable potency. | 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$ does not prevent terbutaline-induced desensitization of @GENE$-mediated cardiovascular in vivo functions in human volunteers. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Disodium cromoglycate does not prevent @CHEMICAL$-induced desensitization of @GENE$-mediated cardiovascular in vivo functions in human volunteers. | 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 humans, prolonged administration of the beta 2-adrenoceptor agonist terbutaline leads to a desensitization of @CHEMICAL$-mediated cardiovascular responses, which can be blunted by concomitant administration of the antianaphylactic drug @GENE$. | 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: In humans, prolonged administration of the @CHEMICAL$ agonist terbutaline leads to a desensitization of beta 2-adrenoceptor-mediated cardiovascular responses, which can be blunted by concomitant administration of the antianaphylactic drug @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: In humans, prolonged administration of the beta 2-adrenoceptor agonist @CHEMICAL$ leads to a desensitization of @GENE$-mediated cardiovascular responses, which can be blunted by concomitant administration of the antianaphylactic drug ketotifen. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 humans, prolonged administration of the @CHEMICAL$ agonist @GENE$ leads to a desensitization of beta 2-adrenoceptor-mediated cardiovascular responses, which can be blunted by concomitant administration of the antianaphylactic drug ketotifen. | 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: This study investigated the effect of @CHEMICAL$, another antiallergic drug, on terbutaline-induced desensitization of @GENE$-mediated cardiovascular and noncardiovascular responses. | 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: This study investigated the effect of disodium cromoglycate, another antiallergic drug, on @CHEMICAL$-induced desensitization of @GENE$-mediated cardiovascular and noncardiovascular responses. | 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: beta 2-Adrenoceptor cardiovascular function was assessed by the increase in heart rate and reduction of diastolic blood pressure induced by an incremental intravenous infusion of the unselective @CHEMICAL$ agonist @GENE$; beta 1-adrenoceptor cardiovascular function was assessed by exercise-induced tachycardia. | CPR:5 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: @CHEMICAL$ cardiovascular function was assessed by the increase in heart rate and reduction of diastolic blood pressure induced by an incremental intravenous infusion of the unselective beta-adrenoceptor agonist @GENE$; beta 1-adrenoceptor cardiovascular function was assessed by exercise-induced tachycardia. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: beta 2-Adrenoceptor cardiovascular function was assessed by the increase in heart rate and reduction of diastolic blood pressure induced by an incremental intravenous infusion of the unselective beta-adrenoceptor agonist @CHEMICAL$; @GENE$ cardiovascular function was assessed by exercise-induced tachycardia. | 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$ affected neither the rightward shift of @GENE$-mediated responses nor the small rightward shift in beta 1-adrenoceptor-mediated exercise tachycardia after 2 weeks' administration of terbutaline. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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$ affected neither the rightward shift of beta 2-adrenoceptor-mediated responses nor the small rightward shift in @GENE$-mediated exercise tachycardia after 2 weeks' administration of terbutaline. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Disodium cromoglycate affected neither the rightward shift of @CHEMICAL$-mediated responses nor the small rightward shift in beta 1-adrenoceptor-mediated exercise tachycardia after 2 weeks' administration of @GENE$. | 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: Disodium cromoglycate affected neither the rightward shift of beta 2-adrenoceptor-mediated responses nor the small rightward shift in @CHEMICAL$-mediated exercise tachycardia after 2 weeks' administration of @GENE$. | 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: Tremulousness observed during the first few days of @CHEMICAL$ administration disappeared after 4 to 8 days, indicating development of desensitization of @GENE$-mediated noncardiovascular responses. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, @CHEMICAL$, on reperfusion induced by @GENE$ (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, @CHEMICAL$, on reperfusion induced by tissue plasminogen activator (@GENE$) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct @CHEMICAL$ inhibitor, @GENE$, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (@CHEMICAL$) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, @GENE$, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and @CHEMICAL$ (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, @GENE$, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: A multicenter, randomized study of argatroban versus heparin as adjunct to @CHEMICAL$ (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, @GENE$, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with @CHEMICAL$ and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by @GENE$ (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with @CHEMICAL$ and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (@GENE$) in patients with acute myocardial infarction (AMI). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with @CHEMICAL$ and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct @GENE$ inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (@CHEMICAL$) in acute myocardial infarction: myocardial infarction with @GENE$ and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of argatroban versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with @CHEMICAL$ and @GENE$ (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of argatroban versus heparin as adjunct to @CHEMICAL$ (TPA) in acute myocardial infarction: myocardial infarction with @GENE$ and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of @CHEMICAL$ versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by @GENE$ (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of @CHEMICAL$ versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (@GENE$) in patients with acute myocardial infarction (AMI). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: A multicenter, randomized study of @CHEMICAL$ versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct @GENE$ inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of @CHEMICAL$ versus heparin as adjunct to tissue plasminogen activator (@GENE$) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: A multicenter, randomized study of @CHEMICAL$ versus heparin as adjunct to tissue plasminogen activator (TPA) in acute myocardial infarction: myocardial infarction with novastan and @GENE$ (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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: A multicenter, randomized study of @CHEMICAL$ versus heparin as adjunct to @GENE$ (TPA) in acute myocardial infarction: myocardial infarction with novastan and TPA (MINT) study. OBJECTIVES: This study examined the effect of a small-molecule, direct thrombin inhibitor, argatroban, on reperfusion induced by tissue plasminogen activator (TPA) in patients with acute myocardial infarction (AMI). | 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 vitro and in vivo studies have shown that @CHEMICAL$ has advantages over heparin for the inhibition of clot-bound @GENE$ and for the enhancement of thrombolysis with TPA. | 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: In vitro and in vivo studies have shown that @CHEMICAL$ has advantages over heparin for the inhibition of clot-bound thrombin and for the enhancement of thrombolysis with @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: METHODS: One hundred and twenty-five patients with AMI within 6 h were randomized to heparin, low-dose @CHEMICAL$ or high-dose argatroban in addition to @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: METHODS: One hundred and twenty-five patients with AMI within 6 h were randomized to heparin, low-dose argatroban or high-dose @CHEMICAL$ in addition to @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: CONCLUSIONS: @CHEMICAL$, as compared with heparin, appears to enhance reperfusion with @GENE$ in patients with AMI, particularly in those patients with delayed presentation. | 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 functional inhibitory characteristics of the @CHEM-GENE$ blockers (ARB) candesartan; irbesartan; and losartan and its active metabolite EXP 3174 (EXP) were studied in rabbit aortic strips and rat portal vein preparations in vitro. | 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 functional inhibitory characteristics of the @CHEMICAL$ blockers (ARB) candesartan; @GENE$; and losartan and its active metabolite EXP 3174 (EXP) were studied in rabbit aortic strips and rat portal vein preparations in vitro. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 functional inhibitory characteristics of the @CHEMICAL$ blockers (ARB) @GENE$; irbesartan; and losartan and its active metabolite EXP 3174 (EXP) were studied in rabbit aortic strips and rat portal vein preparations in vitro. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 functional inhibitory characteristics of the @CHEMICAL$ blockers (ARB) candesartan; irbesartan; and @GENE$ and its active metabolite EXP 3174 (EXP) were studied in rabbit aortic strips and rat portal vein preparations in vitro. | 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 functional inhibitory characteristics of the @CHEMICAL$ blockers (ARB) candesartan; irbesartan; and losartan and its active metabolite @GENE$ (EXP) were studied in rabbit aortic strips and rat portal vein preparations in vitro. | 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 functional inhibitory characteristics of the @CHEMICAL$ blockers (ARB) candesartan; irbesartan; and losartan and its active metabolite EXP 3174 (@GENE$) were studied in rabbit aortic strips and rat portal vein preparations in vitro. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: In both vascular preparations, @CHEMICAL$ caused a marked decrease in the maximal contractile response of the @GENE$ (Ang II) concentration-response curve. | 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: In both vascular preparations, @CHEMICAL$ caused a marked decrease in the maximal contractile response of the angiotensin II (@GENE$) concentration-response curve. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: In both vascular preparations, candesartan caused a marked decrease in the maximal contractile response of the @CHEM-GENE$ (Ang II) concentration-response curve. | 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 both vascular preparations, candesartan caused a marked decrease in the maximal contractile response of the @CHEMICAL$ (@GENE$) concentration-response curve. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 both vascular preparations, candesartan caused a marked decrease in the maximal contractile response of the @CHEMICAL$ (@GENE$) concentration-response curve. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 both vascular preparations, candesartan caused a marked decrease in the maximal contractile response of the angiotensin II (@CHEM-GENE$) concentration-response curve. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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$, EXP, and irbesartan caused a rightward parallel shift without any major effects on the maximal response to @GENE$. | 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: Losartan, @CHEMICAL$, and irbesartan caused a rightward parallel shift without any major effects on the maximal response to @GENE$. | 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: Losartan, EXP, and @CHEMICAL$ caused a rightward parallel shift without any major effects on the maximal response to @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: Losartan, EXP, and irbesartan caused a rightward parallel shift without any major effects on the maximal response to @CHEM-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: Cooling of the rat portal vein preparations to 4 degrees C before administration of @CHEMICAL$ prevented the persistent inhibition of @GENE$ response seen at 37 degrees C. | 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: Cooling of the rat portal vein preparations to 4 degrees C before administration of candesartan prevented the persistent inhibition of @CHEM-GENE$ response seen at 37 degrees C. | 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: For the other ARBs studied, the magnitude of inhibition and the speed of recovery of the @CHEM-GENE$ response were independent of the incubation temperature before washing. | 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 addition, when candesartan was given to conscious rats, the inhibitory effect on @CHEMICAL$-induced blood pressure responses persisted during the 24-hour period despite nondetectable plasma concentrations of @GENE$ at 24 hours. | 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 addition, when @CHEMICAL$ was given to conscious rats, the inhibitory effect on @GENE$-induced blood pressure responses persisted during the 24-hour period despite nondetectable plasma concentrations of candesartan at 24 hours. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: In addition, when candesartan was given to conscious rats, the inhibitory effect on @CHEM-GENE$-induced blood pressure responses persisted during the 24-hour period despite nondetectable plasma concentrations of candesartan at 24 hours. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: At clinically relevant concentrations, @CHEMICAL$ is an insurmountable and long-lasting antagonist of the vascular contractile responses to @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: At clinically relevant concentrations, candesartan is an insurmountable and long-lasting antagonist of the vascular contractile responses to @CHEM-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: Dose-dependent inhibition of platelet @CHEMICAL$ and monocyte cyclooxygenase-2 by @GENE$ in healthy subjects. | 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: Dose-dependent inhibition of platelet cyclooxygenase-1 and monocyte @CHEMICAL$ by @GENE$ in healthy subjects. | 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 evaluated whether therapeutic blood levels of @CHEMICAL$ are associated with selective inhibition of monocyte @GENE$ in vitro and ex vivo. | 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: Concentration-response curves for the inhibition of monocyte @CHEMICAL$ and platelet COX-1 were obtained in vitro after the incubation of @GENE$ with whole blood samples. | CPR:4 |