| pubmed-article:8489002 | pubmed:abstractText | In this study, the CD loop of the Ca(2+)-binding protein oncomodulin was replaced by a high-affinity, metal-binding sequence that was found to reverse the order of fill of the two sites in the protein. A cysteine was included at position 7 of this sequence, i.e., DKNADGCIEFEE. The cysteine allowed covalent attachment of chromophores to the loop that could subsequently be tested for their ability to sensitize the luminescence of Tb3+ or Eu3+ bound in the loop. 7-Diethylamino-3-((4'-iodoacetylamino)phenyl)-4-methylcoumarin was the most efficient Eu3+ sensitizer studied, consistent with a mechanism of energy transfer that involves the triplet state of the donor. 4-Iodoacetamidosalicylic acid was the most efficient Tb3+ donor tested. Levels of lanthanide ion and labeled C3 as low as 5 x 10(-10) mol/liter could be detected. This protein chelator system has potential to be a useful, flexible complement to the organic chelators currently used in lanthanide-based, time-resolved luminescence immunoassays. | lld:pubmed |
