Catalog |
name |
Description |
price |
R-BD-038 |
BODIPY FL-PEG5-COOH |
Compared with fluorescein,rhodamine or cyanine dyes,BDP fluorescent dyes have the advantages of higher quantum yield,higher molar extinction coefficient, better optical stability and pH insensitivity. |
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R-BD-039 |
BODIPY FL-PEG6-COOH |
Compared with fluorescein, rhodamine or cyanine dyes,BDP fluorescent dyes have the advantages of higher quantum yield,higher molar extinction coefficient, better optical stability and pH insensitivity.Ruixi can provide such products and make customized products. |
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R-BD-040 |
BODIPY 581/591 carboxylic acid |
BODIPY 581-591 is a fluorophore for ROS detection.In the reduced state, the maximum fluorescence emission was observed at 591 nm.Once the fluorophore is oxidized by reactive oxygen species,the maximum fluorescence emission shifts to 515 nm. |
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R-BD-041 |
BODIPY 630/650 carboxylic acid |
BDP 630-650 is a bright far red fluorophore based on borondipyrromethene scaffold.This is a carboxylic acid derivative that can be activated for the coupling with amines.It can also be used as a control in negative experiments,or when chemical attachment of the dye is not necessary. |
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R-BD-1325 |
BODIPY TMR carboxylic acid |
This free carboxylic acid can be used as a non-reactive control in side-by side experiments with other reactive derivatives of BDP TMR.It can also be used for Steglich esterification. |
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R-BD-043 |
BODIPY TR carboxylic acid |
BDP TR is a bright and photostable fluorophore for ROX-Texas red channel.It is moderately hydrophobic,has relatively long lifetime of the excited state,and significant two photon cross section.This carboxylic acid derivative can be used for the labeling of alcohols by Steglich esterification,or in non-conjugated form (non-activated carboxy group can be considered inert for applications that do not require conjugation). |
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R-BD-1350 |
BDP TMR azide |
Bdp-tmr is a boropyrrolidone fluorophore with excitation and emission wavelengths matching with Tamra dye channel.The dye has a long fluorescence life and is an azide used for click chemical labeling. |
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R-BD-1332 |
BDP TMR NHS ester |
BDP TMR is a boron dipyrrolidone dye,which is an amine reactive NHS ester,which is used to label proteins,peptides and other molecules with amino groups.Bdp-tmr is a dye used in Tamra channel,but it is much brighter than Tamra.Due to the long lifetime of the excited state,this kind of fluorophore is a good choice to measure the fluorescence anisotropy,especially when short linkers are provided. |
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R-M-3032 |
BP Fluor 594 TFP Ester |
BP Fluor 594 TFP Ester is bright, water-soluble, and pH-insensitive from pH 4 to pH 10 red-fluorescent dye often used for modifying proteins or antibodies through the primary amines (Lys), amine-modified oligonucleotides, and other amine-containing biomolecules with BP Fluor 594 label. The labeling occurs most efficiently at pH 7-9 and forms a stable, covalent amide bond. BP Fluor 594 dye can be used for proteins labeling at high molar ratios without significant self-quenching, enabling brighter conjugates and more sensitive detection. TFP (tetrafluorophenyl) ester is an amine-reactive activated ester that reacts with primary amines of biomolecules in the same way as the succinimidyl ester (SE or NHS-ester) to form a stable amide bond. The major advantage of TFP esters over the succinimidyl ester is much improved resistance to spontaneous hydrolysis during conjugation reactions resulting in more efficiency and better reproducible labeling of biopolymers. TFP esters are stable for several hours at the basic pH typically used for reactions–far outlasting succinimidyl esters. |
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R-M-3033 |
BP Fluor 594 C5 Maleimide |
BP Fluor 594 C5 Maleimide is bright, water-soluble, and pH-insensitive from pH 4 to pH 10 red-fluorescent dye with absorption and emission maxima at 590 and 617 nm, respectively. It can be used with the 561 nm and 594 nm laser lines. BP Fluor 594 dye conjugated to a variety of antibodies, peptides, proteins, tracers, and amplification substrates often used for generation of stable signal in imaging and flow cytometry. The brightness and photostability of this dye are best suited to direct imaging of low-abundance targets. Maleimide is the most popular sulfhydryl-reactive reactive group for conjugating the dye to a thiol group on a protein, oligonucleotide thiophosphate, or low molecular weight ligand. The maleimide group specifically and efficiently reacts with reduced thiols (sulfhydryl groups, –SH) at pH 6.5 to 7.5 to form stable thioether bond. The resulting conjugates exhibit brighter fluorescence and greater photostability than the conjugates of many other spectrally similar fluorophores. |
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