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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: This inhibition was blocked when mice were pretreated with the selective @CHEMICAL$ agonist @GENE$ (10 mg/kg). | 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: Lastly, the results add to the growing literature on @CHEMICAL$ modulation in the pharmacotherapy of @GENE$ addiction. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: The @CHEMICAL$ antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist @GENE$ enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the @CHEMICAL$ antagonist @GENE$ enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | 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: The 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist @CHEMICAL$ enhanced clomipramine-induced hyperglycemia, while the @GENE$ antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist @CHEMICAL$ enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the @GENE$ antagonist tropisetron did not affect it. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: The @CHEMICAL$ antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced @GENE$-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the @CHEMICAL$ antagonist LY 53857 enhanced @GENE$-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced @CHEMICAL$-induced hyperglycemia, while the @GENE$ antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced @CHEMICAL$-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the @GENE$ antagonist tropisetron did not affect it. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: The @CHEMICAL$ antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist @GENE$ and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the @CHEMICAL$ antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist @GENE$ and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the @CHEMICAL$ antagonist @GENE$ and the 5-HT(3/4)-receptor antagonist tropisetron did not affect it. | 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: The 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist @CHEMICAL$ and the @GENE$ antagonist tropisetron did not affect it. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: The @CHEMICAL$ antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist @GENE$ did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the @CHEMICAL$ antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist @GENE$ did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the @CHEMICAL$ antagonist (-)-propranolol and the 5-HT(3/4)-receptor antagonist @GENE$ did not affect it. | 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 5-HT(1/2/5/7)-receptor antagonist methysergide and the 5-HT(2A/2B/2C)-receptor antagonist LY 53857 enhanced clomipramine-induced hyperglycemia, while the 5-HT(1A/1B)-receptor antagonist (-)-propranolol and the @CHEMICAL$ antagonist @GENE$ did not affect it. | 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: The @CHEMICAL$ antagonist @GENE$ facilitated hyperglycemia induced by clomipramine, although the 5-HT(2A)-receptor antagonist ketanserin was without effect. | 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: The 5-HT(2B/2C)-receptor antagonist @CHEMICAL$ facilitated hyperglycemia induced by clomipramine, although the @GENE$-receptor antagonist ketanserin was without effect. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: The @CHEMICAL$ antagonist SB 206553 facilitated hyperglycemia induced by @GENE$, although the 5-HT(2A)-receptor antagonist ketanserin was without effect. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 5-HT(2B/2C)-receptor antagonist SB 206553 facilitated hyperglycemia induced by @CHEMICAL$, although the @GENE$-receptor antagonist ketanserin was without effect. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: The @CHEMICAL$ antagonist SB 206553 facilitated hyperglycemia induced by clomipramine, although the 5-HT(2A)-receptor antagonist @GENE$ was without effect. | 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 5-HT(2B/2C)-receptor antagonist SB 206553 facilitated hyperglycemia induced by clomipramine, although the @CHEMICAL$-receptor antagonist @GENE$ was without effect. | 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: These results suggest that @CHEMICAL$ induces hyperglycemia in mice by blocking the @GENE$and/or 5-HT(2C) receptors, which results in facilitation of adrenaline release. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: These results suggest that @CHEMICAL$ induces hyperglycemia in mice by blocking the 5-HT(2B )and/or @GENE$ receptors, which results in facilitation of adrenaline release. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: These results suggest that clomipramine induces hyperglycemia in mice by blocking the @CHEMICAL$and/or 5-HT(2C) receptors, which results in facilitation of @GENE$ 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: These results suggest that clomipramine induces hyperglycemia in mice by blocking the 5-HT(2B )and/or @CHEMICAL$ receptors, which results in facilitation of @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: Post-translational modifications of @CHEMICAL$ such as phosphorylation, ubiquitination, SUMOylation, methylation and poly(@GENE$-ribosyl)ation have been shown to play important roles in telomere function. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Here we show that @CHEMICAL$ specifically interacts with the histone acetyltransferase p300, and that p300 acetylates the @GENE$ residue at position 293 of TRF2. | 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: Here we show that TRF2 specifically interacts with the @CHEMICAL$, and that p300 acetylates the @GENE$ residue at position 293 of TRF2. | 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: Here we show that TRF2 specifically interacts with the histone acetyltransferase p300, and that @CHEMICAL$ acetylates the @GENE$ residue at position 293 of TRF2. | 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: Here we show that TRF2 specifically interacts with the histone acetyltransferase p300, and that p300 acetylates the @CHEMICAL$ residue at position 293 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: Externalization of phosphatidylserine during apoptosis does not specifically require either isoform of @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: Externalization of @CHEMICAL$ during apoptosis does not specifically require either isoform 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: @CHEMICAL$ (PtdSer) is made in mammalian cells by two @GENE$, PSS1 and PSS2. | CPR:9 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ (PtdSer) is made in mammalian cells by two PtdSer synthases, @GENE$ and PSS2. | CPR:9 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ (PtdSer) is made in mammalian cells by two PtdSer synthases, PSS1 and @GENE$. | CPR:9 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Phosphatidylserine (@CHEMICAL$) is made in mammalian cells by two @GENE$, PSS1 and PSS2. | 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: Phosphatidylserine (@CHEMICAL$) is made in mammalian cells by two PtdSer synthases, @GENE$ and PSS2. | 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: Phosphatidylserine (@CHEMICAL$) is made in mammalian cells by two PtdSer synthases, PSS1 and @GENE$. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Phosphatidylserine (PtdSer) is made in mammalian cells by two @CHEM-GENE$, PSS1 and PSS2. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Phosphatidylserine (PtdSer) is made in mammalian cells by two @CHEMICAL$ synthases, @GENE$ and PSS2. | 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: Phosphatidylserine (PtdSer) is made in mammalian cells by two @CHEMICAL$ synthases, PSS1 and @GENE$. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: We induced apoptosis with @CHEMICAL$ in four Chinese hamster ovary (CHO) cell lines that are deficient in @GENE$ and/or PSS2 to determine if PtdSer generated by either of these enzymes is required for externalization on the cell surface during apoptosis. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: We induced apoptosis with @CHEMICAL$ in four Chinese hamster ovary (CHO) cell lines that are deficient in PSS1 and/or @GENE$ to determine if PtdSer generated by either of these enzymes is required for externalization on the cell surface during apoptosis. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: We induced apoptosis with staurosporine in four Chinese hamster ovary (CHO) cell lines that are deficient in @CHEMICAL$ and/or PSS2 to determine if @GENE$ generated by either of these enzymes is required for externalization on the cell surface during apoptosis. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: We induced apoptosis with staurosporine in four Chinese hamster ovary (CHO) cell lines that are deficient in PSS1 and/or @CHEMICAL$ to determine if @GENE$ generated by either of these enzymes is required for externalization on the cell surface during apoptosis. | 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: Cells that were deficient in either @CHEMICAL$ or PSS2, as well as cells that were deficient in both PSS1 and PSS2, externalized normal amounts 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: Cells that were deficient in either PSS1 or @CHEMICAL$, as well as cells that were deficient in both PSS1 and PSS2, externalized normal amounts of @GENE$. | 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: Cells that were deficient in either PSS1 or PSS2, as well as cells that were deficient in both @CHEMICAL$ and PSS2, externalized normal amounts 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: Cells that were deficient in either PSS1 or PSS2, as well as cells that were deficient in both PSS1 and @CHEMICAL$, externalized normal amounts of @GENE$. | 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: Moreover, a normal level of expression of @CHEMICAL$ and/or PSS2 is not required for generating the pool of @GENE$ externalized during apoptosis. | CPR:9 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Moreover, a normal level of expression of PSS1 and/or @CHEMICAL$ is not required for generating the pool of @GENE$ externalized during apoptosis. | CPR:9 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Characterization of the interaction of ingenol 3-angelate with @CHEMICAL$. @GENE$ (I3A) is one of the active ingredients in Euphorbia peplus, which has been used in traditional medicine. | 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: Characterization of the interaction of ingenol 3-angelate with @CHEMICAL$. Ingenol 3-angelate (@GENE$) is one of the active ingredients in Euphorbia peplus, which has been used in traditional medicine. | 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: Characterization of the interaction of @CHEMICAL$ with @GENE$. Ingenol 3-angelate (I3A) is one of the active ingredients in Euphorbia peplus, which has been used in traditional medicine. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Here, we report the initial characterization of @CHEMICAL$ as a @GENE$ (PKC) ligand. I3A bound to PKC-alpha in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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: Here, we report the initial characterization of @CHEMICAL$ as a protein kinase C (@GENE$) ligand. I3A bound to PKC-alpha in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: Here, we report the initial characterization of @CHEMICAL$ as a protein kinase C (PKC) ligand. I3A bound to PKC-alpha in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little @GENE$ isoform selectivity was observed. | 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: Here, we report the initial characterization of @CHEMICAL$ as a protein kinase C (PKC) ligand. I3A bound to @GENE$ in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a @CHEMICAL$ (PKC) ligand. @GENE$ bound to PKC-alpha in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a protein kinase C (@CHEMICAL$) ligand. @GENE$ bound to PKC-alpha in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a protein kinase C (PKC) ligand. @CHEMICAL$ bound to PKC-alpha in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little @GENE$ isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a protein kinase C (PKC) ligand. @CHEMICAL$ bound to @GENE$ in the presence of phosphatidylserine with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a @CHEMICAL$ (PKC) ligand. I3A bound to PKC-alpha in the presence of @GENE$ with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a protein kinase C (@CHEMICAL$) ligand. I3A bound to PKC-alpha in the presence of @GENE$ with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a protein kinase C (PKC) ligand. I3A bound to PKC-alpha in the presence of @CHEMICAL$ with high affinity; however, under these assay conditions, little @GENE$ isoform selectivity was observed. | 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: Here, we report the initial characterization of I3A as a protein kinase C (PKC) ligand. I3A bound to @CHEMICAL$ in the presence of @GENE$ with high affinity; however, under these assay conditions, little PKC isoform selectivity was observed. | 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$ isoforms did show different sensitivity and selectivity for down-regulation by @GENE$ and phorbol 12-myristate 13-acetate (PMA) in WEHI-231, HOP-92, and Colo-205 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$ isoforms did show different sensitivity and selectivity for down-regulation by I3A and @GENE$ (PMA) in WEHI-231, HOP-92, and Colo-205 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$ isoforms did show different sensitivity and selectivity for down-regulation by I3A and phorbol 12-myristate 13-acetate (@GENE$) in WEHI-231, HOP-92, and Colo-205 cells. | CPR:4 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: In intact CHO-K1 cells, @CHEMICAL$ was able to translocate different green fluorescent protein-tagged @GENE$ isoforms, visualized by confocal microscopy, with equal or higher potency than PMA. | 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 intact CHO-K1 cells, @CHEMICAL$ was able to translocate different @GENE$-tagged PKC isoforms, visualized by confocal microscopy, with equal or higher potency than PMA. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 intact CHO-K1 cells, I3A was able to translocate different green fluorescent protein-tagged @CHEMICAL$ isoforms, visualized by confocal microscopy, with equal or higher potency than @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 intact CHO-K1 cells, I3A was able to translocate different @CHEMICAL$-tagged PKC isoforms, visualized by confocal microscopy, with equal or higher potency than @GENE$. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ in particular showed a different pattern of translocation in response to @GENE$ and PMA. | 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$ in particular showed a different pattern of translocation in response to I3A and @GENE$. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: I3A induced a higher level of secretion of the inflammatory @CHEMICAL$ interleukin 6 compared with @GENE$ in the WEHI-231 cells and displayed a marked biphasic dose-response curve for the induction. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: I3A induced a higher level of secretion of the inflammatory cytokine @CHEMICAL$ compared with @GENE$ in the WEHI-231 cells and displayed a marked biphasic dose-response curve for the induction. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ induced a higher level of secretion of the inflammatory @GENE$ interleukin 6 compared with PMA in the WEHI-231 cells and displayed a marked biphasic dose-response curve for the induction. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ induced a higher level of secretion of the inflammatory cytokine @GENE$ compared with PMA in the WEHI-231 cells and displayed a marked biphasic dose-response curve for the induction. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$ was unable to cause the same extent of association of the @GENE$ of PKC-delta with lipids, compared with PMA or the physiological regulator diacylglycerol, and was able to partially block the association induced by these agents, measured by surface plasmon resonance. | 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$ was unable to cause the same extent of association of the C1b domain of @GENE$ with lipids, compared with PMA or the physiological regulator diacylglycerol, and was able to partially block the association induced by these agents, measured by surface plasmon resonance. | 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: I3A was unable to cause the same extent of association of the @CHEMICAL$ of PKC-delta with lipids, compared with @GENE$ or the physiological regulator diacylglycerol, and was able to partially block the association induced by these agents, measured by surface plasmon resonance. | 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: I3A was unable to cause the same extent of association of the C1b domain of @CHEMICAL$ with lipids, compared with @GENE$ or the physiological regulator diacylglycerol, and was able to partially block the association induced by these agents, measured by surface plasmon resonance. | 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: I3A was unable to cause the same extent of association of the @CHEMICAL$ of PKC-delta with lipids, compared with PMA or the physiological regulator @GENE$, and was able to partially block the association induced by these agents, measured by surface plasmon resonance. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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: I3A was unable to cause the same extent of association of the C1b domain of @CHEMICAL$ with lipids, compared with PMA or the physiological regulator @GENE$, and was able to partially block the association induced by these agents, measured by surface plasmon resonance. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ 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 in vitro kinase activity of @CHEMICAL$ induced by @GENE$ was lower than that induced by PMA. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: The in vitro kinase activity of @CHEMICAL$ induced by I3A was lower than that induced by @GENE$. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Type I deiodinase, liver fatty-acid binding protein and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by @CHEMICAL$, while TDCPP induced @GENE$ and CYP2H1. | 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: Type I deiodinase, liver fatty-acid binding protein and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by @CHEMICAL$, while TDCPP induced CYP3A37 and @GENE$. | false |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$, liver fatty-acid binding protein and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by @GENE$, while TDCPP induced CYP3A37 and CYP2H1. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Type I deiodinase, @CHEMICAL$ and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by @GENE$, while TDCPP induced CYP3A37 and CYP2H1. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Type I deiodinase, liver fatty-acid binding protein and @CHEMICAL$ mRNA levels were significantly induced by @GENE$, while TDCPP induced CYP3A37 and CYP2H1. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Type I deiodinase, liver fatty-acid binding protein and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by TCPP, while @CHEMICAL$ induced @GENE$ and CYP2H1. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: Type I deiodinase, liver fatty-acid binding protein and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by TCPP, while @CHEMICAL$ induced CYP3A37 and @GENE$. | CPR:3 |
TASK: the task is to classify relations between a chemical and a gene for a sentence.
INPUT: the input is a sentence where the chemical is labeled as @CHEMICAL$ and the gene is labeled as @GENE$ accordingly in a sentence.
OUTPUT: your task is to select one out of the six types of relations ('CPR:3', 'CPR:4', 'CPR:5', 'CPR:6', 'CPR:9', and 'false') for the gene and chemical without any explanation or other characters:
CPR:3, which includes UPREGULATOR, ACTIVATOR, and INDIRECT UPREGULATOR
CPR:4, which includes DOWNREGULATOR, INHIBITOR ,and INDIRECT DOWNREGULATOR
CPR:5, which includes AGONIST, AGONIST ACTIVATOR, and AGONIST INHIBITOR
CPR:6, which includes ANTAGONIST
CPR:9, which includes SUBSTRATE, PRODUCT OF and SUBSTRATE PRODUCT OF
false, which indicates no relations
The following examples are provided:
Example-1 Q: Three lines of evidence suggest that calmodulin inhibition is not responsible for the inhibition of binding and endocytosis: 1) Promethazine, a phenothiazine that is a poor inhibitor of calmodulin, is nearly as effective as TFP at inhibiting endocytosis; calmidazolium, a potent inhibitor of several calmodulin functions, did not cause a loss of binding; 2) the microinjection of calmodulin into cells did not reverse the effects of @CHEMICAL$; using pressure microinjection, we introduced up to a 100-fold excess of @GENE$ over native levels into individual gerbil fibroma cells; using rhodamine-labeled alpha 2-macroglobulin, we saw that the W-7 induced inhibition of receptor-mediated endocytosis was the same in injected and uninjected cells; 3) we injected calcineurin, a calmodulin-binding protein, into cells (1-3 pg/cell) and observed no effect on the receptor-mediated endocytosis of rhodamine-labeled alpha 2-macroglobulin.
Example-1 A: false
Q: @CHEMICAL$, liver fatty-acid binding protein and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by TCPP, while @GENE$ induced CYP3A37 and CYP2H1. | 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: Type I deiodinase, @CHEMICAL$ and cytochrome P450 (CYP) 3A37 mRNA levels were significantly induced by TCPP, while @GENE$ induced CYP3A37 and CYP2H1. | 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: Type I deiodinase, liver fatty-acid binding protein and @CHEMICAL$ mRNA levels were significantly induced by TCPP, while @GENE$ induced CYP3A37 and CYP2H1. | false |
Subsets and Splits