Labelling

This red fluorescent dye is functionalized with an azide, enabling it´s conjugation to nucleic acids and other biomolecules by click labeling. It shows identical spectral properties to Alexa Fluor® 594 or DyLight 594 dyes.

Eterneon-Red 645 Azide is an alternative to Cy5 with the following advantages: It is water-soluble and therefore very well suited for click conjugation with alkynylated biomolecules in aqueous media.

Eterneon-Red 645 Azide is an alternative to Cy5 with the following advantages: It is water-soluble and therefore very well suited for click conjugation with alkynylated biomolecules in aqueous media.

5-Ethynyl-2’-deoxyuridine (EdU) is a nucleoside analog to thymidine and can be incorporated into DNA during DNA synthesis (see also our EdU cell proliferation assays for more information). The newly synthesized DNA carries an alkyne moiety that can be easily clicked to azides to assess cell proliferation, cell cycles, viability, etc.

5-Ethynyl-2’-deoxyuridine (EdU) is a nucleoside analog to thymidine and can be incorporated into DNA during DNA synthesis (see also our EdU cell proliferation assays for more information). The newly synthesized DNA carries an alkyne moiety that can be easily clicked to azides to assess cell proliferation, cell cycles, viability, etc.

5-Ethynyl-2’-deoxyuridine (EdU) is a nucleoside analog to thymidine and can be incorporated into DNA during DNA synthesis (see also our EdU cell proliferation assays for more information). The newly synthesized DNA carries an alkyne moiety that can be easily clicked to azides to assess cell proliferation, cell cycles, viability, etc.

5-Ethynyl-2’-deoxyuridine (EdU) is a nucleoside analog to thymidine and can be incorporated into DNA during DNA synthesis (see also our EdU cell proliferation assays for more information). The newly synthesized DNA carries an alkyne moiety that can be easily clicked to azides to assess cell proliferation, cell cycles, viability, etc.

5-Ethynyl-2’-deoxyuridine (EdU) is a nucleoside analog to thymidine and can be incorporated into DNA during DNA synthesis (see also our EdU cell proliferation assays for more information). The newly synthesized DNA carries an alkyne moiety that can be easily clicked to azides to assess cell proliferation, cell cycles, viability, etc.

5-Ethynyl uridine (EU) is a modified nucleoside that can be used for labeling of nascent RNA inside cells. After feeding EU, it can react with azides. Our own experiments indicate that it will be first integrated in de novo synthesized RNA, but we have also observed incorporation into DNA after some incubation time. This is most likely via conversion of the EU ribonucleoside into EdU aided by intracellular ribonucleotide reductases. Research from several groups demonstrates successful EU cellular labeling for divers applications.