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ATP-TAMRA conjugate [5-TAMRA-eda-ATP]

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Physical properties
Molecular weight1128.13
Spectral properties
Correction Factor (260 nm)0.32
Correction Factor (280 nm)0.178
Extinction coefficient (cm -1 M -1)90000
Excitation (nm)552
Emission (nm)578
Storage, safety and handling
H-phraseH303, H313, H333
Hazard symbolXN
Intended useResearch Use Only (RUO)
R-phraseR20, R21, R22
StorageFreeze (< -15 °C); Minimize light exposure


Molecular weight
Correction Factor (260 nm)
Correction Factor (280 nm)
Extinction coefficient (cm -1 M -1)
Excitation (nm)
Emission (nm)
Fluorescently labeled ATP tracers are useful for monitoring ATP-binding proteins and other biomolecules. The ATP-TAMRA tracer was demonstrated to bind ATPases that are a class of enzymes that catalyze the decomposition of ATP into ADP and a free phosphate ion.


Common stock solution preparation

Table 1. Volume of DMSO needed to reconstitute specific mass of ATP-TAMRA conjugate [5-TAMRA-eda-ATP] to given concentration. Note that volume is only for preparing stock solution. Refer to sample experimental protocol for appropriate experimental/physiological buffers.

0.1 mg0.5 mg1 mg5 mg10 mg
1 mM88.642 µL443.211 µL886.423 µL4.432 mL8.864 mL
5 mM17.728 µL88.642 µL177.285 µL886.423 µL1.773 mL
10 mM8.864 µL44.321 µL88.642 µL443.211 µL886.423 µL

Molarity calculator

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Spectral properties

Correction Factor (260 nm)0.32
Correction Factor (280 nm)0.178
Extinction coefficient (cm -1 M -1)90000
Excitation (nm)552
Emission (nm)578

Product Family

NameExcitation (nm)Emission (nm)Extinction coefficient (cm -1 M -1)Correction Factor (260 nm)Correction Factor (280 nm)
ADP-TAMRA conjugate [5-TAMRA-eda-ADP]552578900000.320.178



View all 32 references: Citation Explorer
Deciphering the catalysis-associated conformational changes of human adenylate kinase 1 with single-molecule spectroscopy
Authors: Lin CY, Huang JY, Lo LW.
Journal: J Phys Chem B (2013): 13947
The Escherichia coli PriA helicase-double-stranded DNA complex: location of the strong DNA-binding subsite on the helicase domain of the protein and the affinity control by the two nucleotide-binding sites of the enzyme
Authors: Szymanski MR, Jezewska MJ, Bujalowski W.
Journal: J Mol Biol (2010): 344
The effect of NBD-Cl in nucleotide-binding of the major subunit alpha and B of the motor proteins F1FO ATP synthase and A1AO ATP synthase
Authors: Hunke C, Tadwal VS, Manimekalai MS, Roessle M, Gruber G.
Journal: J Bioenerg Biomembr (2010): 1
ATP/ADP binding to a novel nucleotide binding domain of the reticulocyte-binding protein Py235 of Plasmodium yoelii
Authors: Ramalingam JK, Hunke C, Gao X, Gruber G, Preiser PR.
Journal: J Biol Chem (2008): 36386
Reversal of ADP-mediated aggregation of adenosine kinase by cyclophilin leads to its reactivation
Authors: Sen B, Chakraborty A, Datta R, Bhattacharyya D, Datta AK.
Journal: Biochemistry (2006): 263
ATPase mechanism of Eg5 in the absence of microtubules: insight into microtubule activation and allosteric inhibition by monastrol
Authors: Cochran JC, Gilbert SP.
Journal: Biochemistry (2005): 16633
Ca2+ binding to sarcoplasmic reticulum ATPase phosphorylated by Pi reveals four thapsigargin-sensitive Ca2+ sites in the presence of ADP
Authors: Vieyra A, Mintz E, Lowe J, Guillain F.
Journal: Biochim Biophys Acta (2004): 103
Evidence for proximal cysteine and lysine residues at or near the active site of arginine kinase of Stichopus japonicus
Authors: Guo Q, Chen B, Wang X.
Journal: Biochemistry (Mosc) (2004): 1336
D1 ring is stable and nucleotide-independent, whereas D2 ring undergoes major conformational changes during the ATPase cycle of p97-VCP
Authors: Wang Q, Song C, Yang X, Li CC.
Journal: J Biol Chem (2003): 32784
Conformational dynamics of DnaB helicase upon DNA and nucleotide binding: analysis by intrinsic tryptophan fluorescence quenching
Authors: Flowers S, Biswas EE, Biswas SB.
Journal: Biochemistry (2003): 1910