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16157-500A bisdeoxy derivative of coelenterazine that produces an emission peak near 400 nm following conversion by Renilla luciferase commonly used in BRET2 protocols to evaluate protein-protein interactions.
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16894-1A synthetic derivative of native coelenterazine that exhibits 16-fold higher luminescence intensity (emission maximum ~466 nm half-total time of 0.6-1.2 sec) than native coelenterazine.
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16894-500A synthetic derivative of native coelenterazine that exhibits 16-fold higher luminescence intensity (emission maximum ~466 nm half-total time of 0.6-1.2 sec) than native coelenterazine.
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16123-1A light-emitting biomolecule that serves as a substrate for luciferases or constituent of photoproteins,oxidation to coelenteramide is accompanied by emission of blue light (emission maximum = 460-470 nm) used in BRET studies and to detect changes
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16123-5A light-emitting biomolecule that serves as a substrate for luciferases or constituent of photoproteins,oxidation to coelenteramide is accompanied by emission of blue light (emission maximum = 460-470 nm) used in BRET studies and to detect changes
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16123-500A light-emitting biomolecule that serves as a substrate for luciferases or constituent of photoproteins,oxidation to coelenteramide is accompanied by emission of blue light (emission maximum = 460-470 nm) used in BRET studies and to detect changes
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16147-10An essential cofactor functioning as an acyl group carrier and carbonyl-activating group for the citric acid cycle and fatty acid metabolism the pantothenate kinase step of the coenzyme A biosynthetic pathway has been identified as a target for the
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16147-100An essential cofactor functioning as an acyl group carrier and carbonyl-activating group for the citric acid cycle and fatty acid metabolism the pantothenate kinase step of the coenzyme A biosynthetic pathway has been identified as a target for the
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16147-25An essential cofactor functioning as an acyl group carrier and carbonyl-activating group for the citric acid cycle and fatty acid metabolism the pantothenate kinase step of the coenzyme A biosynthetic pathway has been identified as a target for the
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18741-1An amphipathic CoQ10 homolog that has a tail consisting of five isoprene units. It has been used as an electron acceptor to study a range of oxidoreductases as isolated enzymes, in subcellular fractions, in intact cells in culture, and in perfused
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18741-10An amphipathic CoQ10 homolog that has a tail consisting of five isoprene units. It has been used as an electron acceptor to study a range of oxidoreductases as isolated enzymes, in subcellular fractions, in intact cells in culture, and in perfused
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18741-5An amphipathic CoQ10 homolog that has a tail consisting of five isoprene units. It has been used as an electron acceptor to study a range of oxidoreductases as isolated enzymes, in subcellular fractions, in intact cells in culture, and in perfused