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인용 및 참조 문헌 (9)
Invitrogen™
Alexa Fluor™ 647 Cadaverine
Alexa Fluor™ 647 Cadaverine is useful as a polar tracer and as a reactive dye for labeling proteins via a자세히 알아보기
| 카탈로그 번호 | 수량 |
|---|---|
| A30679 A-30679으로도 사용됨 | 1 mg |
카탈로그 번호 A30679
A-30679으로도 사용됨
제품 가격(KRW)
493,000
온라인 행사
Ends: 31-Dec-2025
579,000할인액 86,000 (15%)
Each
수량:
1 mg
제품 가격(KRW)
493,000
온라인 행사
Ends: 31-Dec-2025
579,000할인액 86,000 (15%)
Each
Alexa Fluor™ 647 Cadaverine is useful as a polar tracer and as a reactive dye for labeling proteins via a carboxylic acid moiety. Alexa Fluor™ 647 is a bright, far red dye with excitation ideally suited to the 633 nm laser line. Used for stable signal generation in imaging and flow cytometry, Alexa Fluor™ 647 dye is water soluble and pH-insensitive from pH 4 to pH 10. In addition to reactive dye formulations, we offer Alexa Fluor™ 647 dye conjugated to a variety of antibodies, peptides, proteins, tracers, and amplification substrates optimized for cellular labeling and detection (learn more).
Detailed information about this AlexaFluor™ cadaverine:
• Fluorophore label : Alexa Fluor™ 647 dye
• Reactive group: cadaverine
• Reactivity: carboxylic acids, aldehydes, and ketones (and glutamine residues through an enzyme-catalyzed transamidation reaction)
• Ex/Em of the conjugate: 651/672 nm
• Extinction coefficient: 245,000 cm-1M-1
• Spectrally similar dyes: APC, Cy5
• Molecular weight: ∼1000
Cell Tracking and Tracing Applications
Alexa Fluor™ cadaverines make excellent fluorescent polar tracers because they are bright, small, and water soluble. Since they contain an aldehyde-fixable functional group, they can be fixed in cells by treatment with formaldehyde or glutaraldehyde. They are easily loaded into cells by microinjection, infusion from patch pipette, or uptake induced by our Influx™ Pinocytic Cell-Loading Reagent. Learn more about cell tracking and tracing.
Protein Labeling Applications
Alexa Fluor™ cadaverines can be used as reactive molecules for adding a fluorescent label to carboxylic acids using a coupling agent such as a carbodiimide; they do not spontaneously react with carboxylic acids in solution. They do, however, react spontaneously with the common amine-reactive functional groups, including succinimidyl esters and isothiocyanates. The amine-containing Alexa Fluor™ cadaverines can also be used to label glutamine residues in some proteins and peptides via an enzyme-catalyzed transamidation reaction.
Learn More About Protein and Antibody Labeling
We offer a wide selection of Molecular Probes™ antibody and protein labeling kits to fit your starting material and your experimental setup. See our Antibody Labeling kits or use our Labeling Chemistry Selection Tool for other choices. To learn more about our labeling kits, read Kits for Labeling Proteins and Nucleic Acids—Section 1.2 in The Molecular Probes™ Handbook.
We’ll Make a Custom Conjugate for You
If you can’t find what you’re looking for in our online catalog, we’ll prepare a custom antibody or protein conjugate for you. Our custom conjugation service is efficient and confidential, and we stand by the quality of our work. We are ISO 13485:2000 certified.
Related Products
DMSO (dimethylsulfoxide) (D12345)
Antibody Conjugate Purification Kit for 0.5-1 mg (A33086)
Antibody Conjugate Purification Kit for 20-50 μg (A33087)
Antibody Conjugate Purification kit for 50-100 μg (A33088)
Detailed information about this AlexaFluor™ cadaverine:
• Fluorophore label : Alexa Fluor™ 647 dye
• Reactive group: cadaverine
• Reactivity: carboxylic acids, aldehydes, and ketones (and glutamine residues through an enzyme-catalyzed transamidation reaction)
• Ex/Em of the conjugate: 651/672 nm
• Extinction coefficient: 245,000 cm-1M-1
• Spectrally similar dyes: APC, Cy5
• Molecular weight: ∼1000
Cell Tracking and Tracing Applications
Alexa Fluor™ cadaverines make excellent fluorescent polar tracers because they are bright, small, and water soluble. Since they contain an aldehyde-fixable functional group, they can be fixed in cells by treatment with formaldehyde or glutaraldehyde. They are easily loaded into cells by microinjection, infusion from patch pipette, or uptake induced by our Influx™ Pinocytic Cell-Loading Reagent. Learn more about cell tracking and tracing.
Protein Labeling Applications
Alexa Fluor™ cadaverines can be used as reactive molecules for adding a fluorescent label to carboxylic acids using a coupling agent such as a carbodiimide; they do not spontaneously react with carboxylic acids in solution. They do, however, react spontaneously with the common amine-reactive functional groups, including succinimidyl esters and isothiocyanates. The amine-containing Alexa Fluor™ cadaverines can also be used to label glutamine residues in some proteins and peptides via an enzyme-catalyzed transamidation reaction.
Learn More About Protein and Antibody Labeling
We offer a wide selection of Molecular Probes™ antibody and protein labeling kits to fit your starting material and your experimental setup. See our Antibody Labeling kits or use our Labeling Chemistry Selection Tool for other choices. To learn more about our labeling kits, read Kits for Labeling Proteins and Nucleic Acids—Section 1.2 in The Molecular Probes™ Handbook.
We’ll Make a Custom Conjugate for You
If you can’t find what you’re looking for in our online catalog, we’ll prepare a custom antibody or protein conjugate for you. Our custom conjugation service is efficient and confidential, and we stand by the quality of our work. We are ISO 13485:2000 certified.
Related Products
DMSO (dimethylsulfoxide) (D12345)
Antibody Conjugate Purification Kit for 0.5-1 mg (A33086)
Antibody Conjugate Purification Kit for 20-50 μg (A33087)
Antibody Conjugate Purification kit for 50-100 μg (A33088)
For Research Use Only. Not for use in diagnostic procedures.
사양
화학물질 반응성Carboxylic Acid, Ketone, Aldehyde
방출672 nm
여기651 nm
라벨 또는 염료Alexa Fluor™ 647
제품 유형Cadaverine
수량1 mg
반응성 부분Amine, Cadaverine
배송 조건Room Temperature
라벨 유형Alexa Fluor
제품라인Alexa Fluor
Unit SizeEach
구성 및 보관
Store in freezer -5°C to -30°C and protect from light.
인용 및 참조 문헌 (9)
인용 및 참조 문헌
Abstract
Death-receptor activation halts clathrin-dependent endocytosis.
Journal:Proc Natl Acad Sci U S A
PubMed ID:16801533
'Endocytosis is crucial for various aspects of cell homeostasis. Here, we show that proapoptotic death receptors (DRs) trigger selective destruction of the clathrin-dependent endocytosis machinery. DR stimulation induced rapid, caspase-mediated cleavage of key clathrin-pathway components, halting cellular uptake of the classic cargo protein transferrin. DR-proximal initiator caspases cleaved the clathrin
A modular IgG-scFv bispecific antibody topology.
Journal:Protein Eng Des Sel
PubMed ID:20019028
'Here we present a bispecific antibody (bsAb) format in which a disulfide-stabilized scFv is fused to the C-terminus of the light chain of an IgG to create an IgG-scFv bifunctional antibody. When expressed in mammalian cells and purified by one-step protein A chromatography, the bsAb retains parental affinities of each
Self-delivering nanoemulsions for dual fluorine-19 MRI and fluorescence detection.
Journal:J Am Chem Soc
PubMed ID:18266363
We report the design, synthesis, and biological testing of highly stable, nontoxic perfluoropolyether (PFPE) nanoemulsions for dual 19F MRI-fluorescence detection. A linear PFPE polymer was covalently conjugated to common fluorescent dyes (FITC, Alexa647 and BODIPy-TR), mixed with pluronic F68 and linear polyethyleneimine (PEI), and emulsified by microfluidization. Prepared nanoemulsions (<200
Development and in vivo efficacy of targeted polymeric inflammation-resolving nanoparticles.
Journal:Proc Natl Acad Sci U S A
PubMed ID:23533277
Excessive inflammation and failed resolution of the inflammatory response are underlying components of numerous conditions such as arthritis, cardiovascular disease, and cancer. Hence, therapeutics that dampen inflammation and enhance resolution are of considerable interest. In this study, we demonstrate the proresolving activity of sub-100-nm nanoparticles (NPs) containing the anti-inflammatory peptide
Adsorbed proteins influence the biological activity and molecular targeting of nanomaterials.
Journal:Toxicol Sci
PubMed ID:17709331
The possible combination of specific physicochemical properties operating at unique sites of action within cells and tissues has led to considerable uncertainty surrounding nanomaterial toxic potential. We have investigated the importance of proteins adsorbed onto the surface of two distinct classes of nanomaterials (single-walled carbon nanotubes [SWCNTs]; 10-nm amorphous silica)