Picolyl Azide

Sulfo Cy3 Picolyl Azide
Excitation source: 350 nm laser line
Filter set: DAPI

Next generation azide probes with excitation near 350 nm used for imaging low abundance alkyne targets.

A water-soluble, blue-emitting click chemistry probe that incorporates a copper-chelating moiety.
Sulfo Cy3 Picolyl Azide
Excitation source: 407 nm laser line
Filter set: DAPI

Advanced, blue-emitting fluorescent probes with excitation ideally suited for the 407 nm spectral line of the krypton laser or the 408 nm violet laser diode.

A bright and photostable blue-fluorescent probe with superior kinetics in copper-catalyzed click reactions.
Sulfo Cy3 Picolyl Azide
Excitation source: 432 nm laser line
Filter set: FITC

Fluorescent azide probes containing an internal copper-chelating motif to raise the effective concentration of Cu at the reaction site.

A green fluorescence-emitting probe with superior kinetics in copper-catalyzed click reactions.
Sulfo Cy3 Picolyl Azide
Excitation source: 488 nm laser line
Filter set: FITC

Green-fluorescent probes with superior kinetics in copper-catalyzed click reactions used for detecting low abundance targets.

A bright and photostable green fluorescence-emitting probe with superior kinetics in copper-catalyzed click reactions.
Sulfo Cy3 Picolyl Azide
Excitation source: 532 nm laser line
Filter set: TRITC

Next generation azide probes with excitation matching 532 nm laser line for imaging low abundance alkyne-tagged biomolecules.

A next-generation yellow fluorescence-emitting probe used for the detection of low abundance alkyne-containing targets.
Sulfo Cy3 Picolyl Azide
Excitation source: 532 nm laser line
Filter set: TRITC

Advanced, orange-fluorescent probes with superior kinetics in CuAAC used for imaging low abundance alkyne targets.

A superior, orange-emitting probe that substantially increases sensitivity of alkyne-tagged biomolecule detection.
An orange-emitting probe with superior kinetics in copper-catalyzed click reactions used for detecting low abundance targets.
An orange-flourescent, azide-acivated probe used with 532 nm or 546 nm laser lines.
Sulfo Cy3 Picolyl Azide
Excitation source: 488/532 nm laser line
Filter set: TRITC

Orange-fluorescent probes with superior kinetics in CuAAC used for imaging low abundance alkyne targets.

Next generation fluorescent azide probe used with 532 nm or 555 nm laser lines for imaging of low abundance alkyne targets.
An orange-fluorescent probe with superior kinetics in copper-catalyzed click reactions used for detection of low abundance targets.
Sulfo Cy3 Picolyl Azide
Excitation source: 568 nm laser line
Filter set: Texas Red

Orange-fluorescent probes with superior kinetics in CuAAC for imaging low abundance alkyne targets.

A bright and photostable orange fluorescent probe with superior kinetics in copper-catalyzed click reactions.
Sulfo Cy3 Picolyl Azide
Excitation source: 568 nm or 594 nm laser line
Filter set: Texas Red

Advanced, red-fluorescent azide probes ideally suited for 594 nm laser line, used for imaging low abundance alkyne targets.

A bright and photostable red-fluorescent probe with superior kinetics in copper-catalyzed click reactions.
Sulfo Cy3 Picolyl Azide
Excitation source: 633 nm or 647 nm laser line
Filter set: Cy5

Far-red-fluorescent probes for imaging low abundance alkyne targets via kinetics in copper-catalyzed click reactions.

Next generation fluorescent azide probe for imaging of low abundance alkyne targets via copper-catalyzed click reactions.
A bright and photostable far-red-fluorescent probe with superior kinetics in copper-catalyzed click reactions.
Sulfo Cy3 Picolyl Azide
Excitation source: 633 nm or 647 nm laser line.
Filter set: Cy5.5

Near-IR fluorescent probes for imaging low abundance alkyne targets via  copper-catalyzed click reactions.

Next generation near-IR probe for imaging low abundance alkyne targets via copper-catalyzed click reactions.
Sulfo Cy3 Picolyl Azide
Excitation source: 633 nm or 647 nm laser line.
Filter set: Cy7

Advanced near-IR probes with superior kinetics in copper-catalyzed click reactions used for imaging low abundance alkyne targets.

Advanced, near-IR fluorescent azide probe for imaging low abundance alkyne targets via copper-catalyzed click reactions.