Alexa Fluor Secondary Antibodies
We offer 18 different individual Invitrogen Alexa Fluor dyes and 4 Invitrogen Alexa Fluor tandem dyes conjugated to secondary antibodies. Invitrogen Alexa Fluor protein and antibody conjugates produce fluorescence outputs that exceed those of other spectrally similar fluorophore conjugates.
As the creators of the Alexa Fluor dye technology, we have extensive experience in providing fluorescent secondary antibodies that exhibit superior brightness and photostability and outperform conventional fluorescent secondary antibodies. With more than 30,000 publications, Alexa Fluor dyes have been successfully used over the last two decades of fluorescence imaging.
Alexa Fluor secondary antibody selection table
How to find a secondary antibody
Step 1: Use the tool at the top of the page to filter by target, application, target species
Step 2: View more filters to narrow results by host species, conjugate and other criteria
Discover the secret to getting the clearest images in your IF experiments.
Alexa Fluor secondary antibody conjugates recommendation table
|Alexa Fluor dye label||Dye and conjugate features|
|Alexa Fluor 488||
|Alexa Fluor 555||
|Alexa Fluor 594||
|Alexa Fluor 647||
|Alexa Fluor 680||
|Alexa Fluor 790||
Alexa Fluor secondary antibodies by host and target species
Alexa Fluor secondary antibodies are available with a variety of host and target specificities, including goat, chicken, donkey, guinea pig, hamster, human, mouse, rabbit, sheep, and rat. The most popular host species for secondary antibodies is goat, while the most popular target species are anti-mouse and anti-rabbit because most primary antibodies are produced in these animals. Knowing that antibodies of these host and target specificities are most common, we offer goat anti-mouse and goat anti-rabbit secondary antibodies conjugated to all of the Alexa Fluor dyes. We also offer Alexa Fluor conjugated secondary antibodies with other host and target species combinations.
Alexa Fluor secondary antibodies for imaging and western blotting
Cell imaging allows scientists to see inside a cell and better understand and predict cell health and function. Cell imaging comes in different formats, including immunohistochemistry (IHC), immunocytochemistry (ICC), and immunofluorescence (IF). We have Alexa Fluor secondary antibodies that will work in each of these applications. For information about using secondary antibodies for immunolabeling, see our page on immunolabeling using secondary antibodies.
Muntjac skin cell labeled in three different colors using an Alexa Fluor secondary antibody. Golgi bodies in a muntjac skin cell were labeled with anti–golgin-97 monoclonal antibody (Cat. No. A-21270) and visualized with green-fluorescent Invitrogen Alexa Fluor 488 goat anti–mouse IgG1 antibody (Cat. No. A-21121). Filamentous actin was labeled with Invitrogen Alexa Fluor 680 phalloidin (Cat. No. A22286, pseudocolored purple). Nuclei were stained with blue-fluorescent DAPI (Cat. No. D1306, D3571, D21490).
Fluorescent western blotting is growing in popularity because of its time savings and multiplex detection capabilities compared to traditional western blotting methods. The wide range of Alexa Fluor secondary antibodies provides conjugates with non-overlapping spectra to enable multiplex analysis. Multiple targets can be detected independently in the same lane and blot with clear distinction between colors.
Simultaneous detection of GLUT4 and GAPDH using Alexa Fluor secondary antibodies. GLUT4 and GAPDH were detected simultaneously in 3T3-L1 adipocyte lysates using mouse anti-GAPDH and rabbit anti-GLUT4 with Alexa Fluor 680 goat anti–mouse IgG (Cat. No. A-21058) and Invitrogen Alexa Fluor 790 goat anti–rabbit IgG Cat. No. A11369). Single-color images were merged to visualize both proteins. GAPDH bands are shown in red, and GLUT4 bands are pseudocolored green.
For Research Use Only. Not for use in diagnostic procedures.