Pub. Date : 1987 Mar
PMID : 3470740
2 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | The fluorescence decay of the rare earth terbium when bound to the protein calmodulin changes from a simple exponential decay to a complex nonexponential decay as the temperature is lowered below 200 K. We have fit the observed decay curves by assuming that the terbium emission is a forced electric dipole transition and proteins have a distribution of continuous conformational states. | Terbium | calmodulin 1 | Homo sapiens |
| 2 | The fluorescence decay of the rare earth terbium when bound to the protein calmodulin changes from a simple exponential decay to a complex nonexponential decay as the temperature is lowered below 200 K. We have fit the observed decay curves by assuming that the terbium emission is a forced electric dipole transition and proteins have a distribution of continuous conformational states. | Terbium | calmodulin 1 | Homo sapiens |