Catalog |
name |
Description |
price |
R-M-7030 |
AZDye 405 Picolyl Azide |
AZDye™ 405 Picolyl Azide is an advanced fluorescent probe that incorporates a copper-chelating motif to raise the effective concentration of Cu(I) at the reaction site. The introduction of a picolyl moiety into an azide probe leads to a substantial increase in the sensitivity of alkyne detection. This is of special value for the detection of low abundance targets or where significant increase in signal intensity is desired. |
price> |
R-M-7032 |
AZDye 405 DBCO |
AZDye™ 405 DBCO reacts with azides via a copper-free click chemistry reaction to form a stable triazole and does not require a Cu-catalyst or elevated temperatures. In applications where the presence of copper is a concern, AZDye™ 405 DBCO is an ideal alternative to fluorescent alkynes that require copper. |
price> |
R-M-7034 |
AZDye 430 NHS Ester |
AZDye™ 430 NHS Ester is a water-soluble, green-fluorescent dye that is often used in multi-color applications, including flow cytometry and super-resolution microscopy using STORM. Its excitation is ideally suited for the 407 nm spectral line of the krypton laser or the 408 nm violet laser diode. AZDye™ 405 conjugates are pH-insensitive from pH 4 to pH 10. |
price> |
R-M-7035 |
AZDye 430 Azide |
AZDye™ 430 Azide is a water-soluble, green-fluorescent, azide-activated probe that reacts with terminal alkynes via a copper-catalyzed click reaction (CuAAC). It also reacts with strained cyclooctyne via a copper-free click chemistry reaction to form a stable triazole and does not require a Cu-catalyst or elevated temperatures. |
price> |
R-M-7036 |
AZDye 430 Picolyl Azide |
AZDye™ 430 Picolyl Azide is an advanced fluorescent probe that incorporates a copper-chelating motif to raise the effective concentration of Cu(I) at the reaction site.The introduction of a picolyl moiety into an azide probe leads to a substantial increase in the sensitivity of alkyne detection. This is of special value for the detection of low abundance targets or where significant increase . |
price> |
R-M-7036 |
AZDye 430 Picolyl Azide |
AZDye™ 430 Picolyl Azide is an advanced fluorescent probe that incorporates a copper-chelating motif to raise the effective concentration of Cu(I) at the reaction site.The introduction of a picolyl moiety into an azide probe leads to a substantial increase in the sensitivity of alkyne detection. This is of special value for the detection of low abundance targets or where significant increase . |
price> |
R-M-7037 |
AZDye 430 Alkyne |
AZDye™ 430 Alkyne is a green-fluorescent alkyne-activated probe routinely used for imaging of moderate to high abundance azide-containing biomolecules. AZDye™ 430 Alkyne reacts with azides via a copper-catalyzed click reaction (CuAAC) to form a stable triazole linker. |
price> |
R-M-7038 |
AZDye 430 DBCO |
AZDye™ 430 DBCO reacts with azides via a copper-free click chemistry reaction to form a stable triazole and does not require a Cu-catalyst or elevated temperatures. In applications where the presence of copper is a concern, AZDye™ 430 DBCO is an ideal alternative to copper requiring fluorescent alkynes.AZDye™ DBCO reagent is not suitable for staining intracellular components of fixed and permeabilized cells due to high backgrounds. |
price> |
R-M-7039 |
AZDye 488 NHS Ester |
AZDye™ 488 NHS Ester is an amine reactive, green-emitting dye routinely used to label proteins or antibodies through primary amines (Lys), amine-modified oligonucleotides, and other amine-containing biomolecules. The labeling occurs most efficiently at pH 7-9 and forms a stable, covalent amide bond. |
price> |
R-M-7040 |
AZDye 488 TFP ester |
AZDye™ 488 TFP Ester (Alexa Fluor® 488 TFP Ester equivalent) is an amine reactive, green-emitting dye routinely used to label proteins or antibodies through primary amines (Lys), amine-modified oligonucleotides, and other amine-containing biomolecules. The labeling occurs most efficiently at pH 7-9 and forms a stable, covalent amide bond. AZDye™ 488 conjugates are highly photostable dyes with very high fluorescence quantum yields. |
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