AB-2900 Aequorin

AB-2900 Aequorin is a photoprotein and a useful tool in biochemical and molecular biology for the measurement of calcium levels (concentration).

Aequorin

Purpose and Application

Aequorin can be used for detection of intracellular calcium ion concentration changes.

Features

Aequorin is a photoprotein (1) isolated from luminous jellyfish(aequorea aequorea) and exists as a molecular enzyme complex composed of apoaequorin(apoprotein) and coelenterazine (luminescent substrate). This complex reacts with calcium ion and generates blue light that peaks at 470nm and therefore can be utilized for detection of the changes in intracellular calcium ion concentration under physiological conditions (4)(5)(6) .

Since Aequorin does not pass through the cell membrane, it is introduced in the cell by the method that temporarily accelerate the membrane permeability (7) or by microinjection. Once the intracellular calcium ion concentration isn increased in response to same kind of stimulation,aequorin immediately reacts to this change and emits light.Unlike fluorescence detection, it produces specific luminescence that is detectable without excitation energy such as UV light, and there is no concern about autofluorescence.The introduced aequorin evenly distributed throughout the cytoplasm without migrating into sub cellular organelle, endoplasmic reticula or extracellular space, allowing for monitoring of changes in calcium ion concentration over long time couse.

The product provided as a purified recombinant aequorin with apoaequorin gene produced by cloning (2)(3) , and therefore higher in purity and more stable than natural products.

Specifications
Product Number AB-2900
Product Name  Aequorin
Material Recombinant Aequorin
Purity More than 95%(verified by CBB staining after SDS-PAGE)
Package 50ug
Storage -80°C

A manufacturer: Chisso Corporation

Reference
(1)   Shimomura, O., Johnson, F. H. and Saiga, Y., J. Cell. Comp. Physiol., 59 223-240 (1962)
(2)   Inouye, S., Noguchi, M., Sakaki, Y., Takagi, Y., Miyata, T., Iwanaga, S., Miyata, T. and Tsuji, F. I., Proc. Natl. Acad. Sci. USA, 82 3154-3158 (1985)
(3)   Shimomura, O. and Inouye, S., Protein Expr. Purif., 16 91-95 (1999)
(4)   Blinks, J. R., Mattingly, P. H., Jewell, B., R., Leeuwen, M. V., Harrer, G. C. and Allen, D. G., Methods in Enzymology, 57 292-328 (1978)
(5)   Blinks, J. R., Methods in Enzymology, 172 164-203 (1989)
(6)   Miller, A. L., Karplus, E. and Jaffe, L. F., Methods in Cell Biol., 40 305-338 (1994)
(7)   Snowdowne, K. W. and Borle, A. B., Am. J. Physiol., 247 C396-408 (1984)