Catalog name Description price
R-M-5398 iFluor™ 488 alkyne iFluor™ 488 conjugates are significantly brighter than fluorescein conjugates and are much more photostable. Additionally, the fluorescence of iFluor™ 488 is not affected by pH (4-10). This pH insensitivity is a major improvement over fluorescein, which emits its maximum fluorescence only at pH above 9. iFluor™ 488 alkyne dye is reasonably stable and shows good reactivity and selectivity with azide group for click chemistry applications (CuAAC). The iFluor™ 488 dyes are an excellent replacement to the Alexa Fluor dyes that have the identical spectral properties. price>
R-M-5399 iFluor™ 488 azide iFluor™ 488 conjugates are significantly brighter than fluorescein conjugates and are much more photostable. Additionally, the fluorescence of iFluor™ 488 is not affected by pH (4-10). This pH insensitivity is a major improvement over fluorescein, which emits its maximum fluorescence only at pH above 9.iFluor™ 488 azide dye is reasonably stable and shows good reactivity and selectivity with alkyne group for click chemistry applications. The iFluor™ 488 dyes are an excellent replacement to the Alexa Fluor dyes that have the identical spectral properties . price>
R-M-5400 iFluor™ 350 succinimidyl ester iFluor™ dyes are optimized for labeling proteins, in particular, antibodies. These dyes are bright, photostable and have minimal quenching on proteins. They can be well excited by the major laser lines of fluorescence instruments (e.g., 350, 405, 488, 555 and 633 nm). iFluor™ 350 dyes have fluorescence excitation and emission maxima of ~350 nm and ~440 nm respectively. These spectral characteristics make them an excellent alternative to AMCA and Alexa Fluor® 350 labeling dye. iFluor™ 350 SE is reasonably stable and shows good reactivity and selectivity with protein amino groups. price>