Catalog |
name |
Description |
price |
R-CA-030 |
TAMRA azide, 6-isomer |
Tetramethyl rhodamine (Tamra) is an orange yellow dye.Dye is a FRET receptor of fam, sometimes used as quenchant of fam.Like other xanthines,Tamra exists in two isomers 6,which have very similar spectral characteristics.This is an azide derivative of the 6-isomer of Tamra.Azides can be conjugated to Terminal Alkynes by copper catalyzed click chemistry or by copper free azide cycloaddition reaction (spaac). |
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R-CA-031 |
TAMRA azide, 5-isomer |
Tetramethyl rhodamine (Tamra) is an orange yellow dye.Dye is a FRET receptor of fam, sometimes used as quenchant of fam.Like other xanthines,Tamra exists in two isomers 5,which have very similar spectral characteristics.This is an azide derivative of the 5-isomer of Tamra.Azides can be conjugated to Terminal Alkynes by copper catalyzed click chemistry or by copper free azide cycloaddition reaction (spaac). |
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R-CA-039 |
BDP FL azide |
BDP FL azide is an analog of BODIPY® FL azide,a Click-chemistry capable bright and photostable dye for FAM channel.This green-emitting fluorophore is compatible with all types of fluorescence measuring instruments for FAM (fluorescein) and dyes like Alexa® Fluor 488.The fluorophore is a representative of borondipyrromethene class of fluorescent dyes,which possess high quantum yields in aqueous environments,and high stability towards photobleaching. |
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R-CA-040 |
Fluorescein-PEG4-azide |
Azides can be divided into organic azides and inorganic azides,which are azide derivatives with the general structure formula of rnnn.Polyethylene glycol (PEG) refers to the oligomer or polymer of ethylene oxide.Fluorescein (also known as fluorescein) is a synthetic organic compound with a dark orange / red appearance,which is soluble in ethanol and slightly soluble in water. Under blue light or ultraviolet light,it emits green fluorescence.It is widely used as fluorescent tracer in many applications,such as fluorescent antibody technology. |
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R-CA-041 |
Fluorescein-PEG2-azide |
Azides can be divided into organic azides and inorganic azides,which are azide derivatives with the general structure formula of rnnn.Polyethylene glycol (PEG) refers to the oligomer or polymer of ethylene oxide.Fluorescein (also known as fluorescein) is a synthetic organic compound with a dark orange-red appearance,which is soluble in ethanol and slightly soluble in water.Under blue light or ultraviolet light,it emits green fluorescence.It is widely used as fluorescent tracer in many applications,such as fluorescent antibody technology. |
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R-CA-042 |
FAM azide, 6-isomer |
FAM (fluorescein) azide. solid and 10 mM solution in DMSO,labeling reagent for Click chemistry.Pure 6-isomer.Can replace Alexa Fluor 488,DyLight 488. |
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R-CA-043 |
FAM azide, 5-isomer |
Click on the chemical tab of fam.Fam remains the most popular fluorescent label for various applications.Most of the instruments for fluorescence detection, from flat reader to fluorescence microscope,can work in fam.Fam azide can be used as a solid compound,and this product is a pure 5-isomer.FAM is an alternative to Alexa fluor 488 and dylight 488. |
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R-CA-047 |
diSulfo-ICG-azide |
ICG chemical name is indocyanine green,is a kind of photosensitive dye, indocyanine green angiography (ICG) is similar to fluorescein angiography fundus angiography,the contrast agent is indocyanine green. |
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R-pr-006 |
1-Ethynyl pyrene |
Pyrene has intrinsic fluorescence.When the two pyrene residues are close to each other,the formation of excimer can be observed in the fluorescence spectrum.Therefore,pyrene is used to detect the structure of biomolecules. Acetylene pyrene contains terminal triple bond fragment,which can be used in click chemistry and Sonogashira coupling reaction. |
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R-pr-007 |
1-Pyrenebutyric acid-PEG2-azide |
Azido dipolyethylene glycol can be used as an intermediate in pharmaceutical synthesis.Pyrene has intrinsic fluorescence.When the two pyrene residues are close,the formation of excimer can be observed in the fluorescence spectrum. Therefore,pyrene is used to detect the structure of biomolecules. |
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