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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: administration of the non-selective muscarinic receptor antagonist atropine (ID50 = 1.45 microg), the muscarinic M1 receptor antagonist pirenzepine (ID50 = 4.33 microg), the muscarinic M2 receptor antagonist @CHEMICAL$ (ID50 = 1.39 microg) and the @GENE$ antagonist para-fluoro-hexahydro-sila-difenidol (ID50 = 31.19 microg). | 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: administration of the non-selective @CHEMICAL$ antagonist atropine (ID50 = 1.45 microg), the muscarinic M1 receptor antagonist pirenzepine (ID50 = 4.33 microg), the muscarinic M2 receptor antagonist methoctramine (ID50 = 1.39 microg) and the muscarinic M3 receptor antagonist @GENE$ (ID50 = 31.19 microg). | 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: administration of the non-selective muscarinic receptor antagonist atropine (ID50 = 1.45 microg), the @CHEMICAL$ antagonist pirenzepine (ID50 = 4.33 microg), the muscarinic M2 receptor antagonist methoctramine (ID50 = 1.39 microg) and the muscarinic M3 receptor antagonist @GENE$ (ID50 = 31.19 microg). | 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: administration of the non-selective muscarinic receptor antagonist atropine (ID50 = 1.45 microg), the muscarinic M1 receptor antagonist pirenzepine (ID50 = 4.33 microg), the @CHEMICAL$ antagonist methoctramine (ID50 = 1.39 microg) and the muscarinic M3 receptor antagonist @GENE$ (ID50 = 31.19 microg). | 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: administration of the non-selective muscarinic receptor antagonist atropine (ID50 = 1.45 microg), the muscarinic M1 receptor antagonist pirenzepine (ID50 = 4.33 microg), the muscarinic M2 receptor antagonist methoctramine (ID50 = 1.39 microg) and the @CHEMICAL$ antagonist @GENE$ (ID50 = 31.19 microg). | CPR:6 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Central injection of such @CHEMICAL$ antagonists did not affect @GENE$-induced bradycardia. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Our results show that @CHEMICAL$ inhibitors induce significant cardiovascular effects with a pressor response mediated mainly by the stimulation of central muscarinic M2 receptors inducing a secondary increase in sympathetic outflow and @GENE$ release. | 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: Our results show that acetylcholinesterase inhibitors induce significant cardiovascular effects with a pressor response mediated mainly by the stimulation of central @CHEMICAL$ inducing a secondary increase in sympathetic outflow and @GENE$ release. | 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: State-dependent @CHEMICAL$ block of @GENE$ isoforms, chimeras, and channels coexpressed with the beta1 subunit. | 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: State-dependent cocaine block of @CHEM-GENE$ isoforms, chimeras, and channels coexpressed with the beta1 subunit. | 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$ block of @GENE$ and rat skeletal (mu1) muscle sodium channels was examined under whole-cell voltage clamp in transiently transfected HEK293t cells. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ block of human cardiac (hH1) and @GENE$ was examined under whole-cell voltage clamp in transiently transfected HEK293t cells. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Cocaine block of @CHEMICAL$ and rat skeletal (mu1) muscle @GENE$ channels was examined under whole-cell voltage clamp in transiently transfected HEK293t cells. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Cocaine block of human cardiac (hH1) and @CHEM-GENE$ was examined under whole-cell voltage clamp in transiently transfected HEK293t cells. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ block of @GENE$ was greater than block of mu1 channels at voltages between -120 mV and -90 mV, suggesting that greater steady-state inactivation of hH1 channels in this voltage range makes them more susceptible to cocaine block. | 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: @CHEMICAL$ block of hH1 channels was greater than block of @GENE$ at voltages between -120 mV and -90 mV, suggesting that greater steady-state inactivation of hH1 channels in this voltage range makes them more susceptible to cocaine block. | 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: @CHEMICAL$ block of hH1 channels was greater than block of mu1 channels at voltages between -120 mV and -90 mV, suggesting that greater steady-state inactivation of @GENE$ in this voltage range makes them more susceptible to cocaine block. | 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: Cocaine block of @CHEMICAL$ was greater than block of mu1 channels at voltages between -120 mV and -90 mV, suggesting that greater steady-state inactivation of hH1 channels in this voltage range makes them more susceptible to @GENE$ block. | 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: Cocaine block of hH1 channels was greater than block of @CHEMICAL$ at voltages between -120 mV and -90 mV, suggesting that greater steady-state inactivation of hH1 channels in this voltage range makes them more susceptible to @GENE$ block. | 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: Cocaine block of hH1 channels was greater than block of mu1 channels at voltages between -120 mV and -90 mV, suggesting that greater steady-state inactivation of @CHEMICAL$ in this voltage range makes them more susceptible to @GENE$ block. | CPR:4 |