Pub. Date : 2005 Aug
PMID : 16051125
11 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | RESULTS: Erythromycin (100 micromol/L) produced no block of I(hERG) at 22 degrees C but produced significant block at 37 degrees C. Extent of block of I(hERG) increased linearly (r = 0.46, P < .01) as temperature increased between 36 degrees C and 42 degrees C. To assess physiologic relevance, action potential duration (APD) was recorded at temperatures between 36 degrees C and 42 degrees C in neonatal ventricular myocytes. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 2 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 3 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 4 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 5 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 6 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 7 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 8 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 9 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 10 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |
| 11 | Under these conditions, erythromycin rapidly blocked I(hERG) even at 22 degrees C. The F656C mutation in the distal S6 of KCNH2 completely abrogated block of I(hERG) measured at 37 degrees C. CONCLUSION: Progressively greater block of hERG and prolongation of APD by erythromycin was observed at temperatures between 36 and 42 degrees C. Temperature-dependent block of I(hERG) is explained by temperature-dependent access of erythromycin to the intracellular binding site at F656. | Erythromycin | ETS transcription factor ERG | Homo sapiens |