5(6)-SFX(6-(Fluorescein-5-(and-6)-Carboxamido) Hexanoic Acid, Succinimidyl Ester), mixed isomers , CAS No.S638699

Item Number
S638699
Grouped product items
SKUSizeAvailabilityPrice Qty
S638699-10mg
10mg
Available within 8-12 weeks(?)
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$413.90

Basic Description

Storage TempProtected from light,Store at -20°C
Shipped InIce chest + Ice pads
Product Description

Product introduction:

Fluorescein is a common green-fluorescent derivatization reagent, while succinimidyl esters are frequently used for the labeling of the primary amines (R-NH2) of proteins, amine-modified oligonucleotides, and other amine-containing molecules. This 'SFX' succinimidyl ester contains a seven-atom amino-hexanoyl spacer between the fluorophore and the reactive group. This spacer separates the fluorophore from the biomolecule to which it is conjugated, potentially reducing the quenching that typically occurs upon conjugation. The resulting fluorescein conjugates can be detected with standard FITC or GFP filter sets. Fluorescein-based dyes and their conjugates have a relatively high rate of photobleaching and a pH-sensitive fluorescence. Alexa Fluor™ 488 and Oregon Green™ 488 are alternative dyes whose spectra mimic those of fluorescein and are much more photostable with little to no pH sensitivity in the physicological pH range.

Specifications:

• Fluorophore label : fluorescein

• Reactive group: succinimidyl ester

• Reactivity: primary amines on proteins and ligands, amine-modified oligonucleotides

• Molecular weight: 586

• Extinction coefficient: 74,000 cm-1M-1

• Ex/Em of the conjugate: 494/520 nm

• Spectrally similar dyes: Alexa Fluor™ 488, GFP

Typical Conjugation Reaction

Amine-reactive reagents can be conjugated with virtually any protein or peptide; the provided protocol is optimized for IgG antibodies. You may scale the reaction for any amount of protein, but the concentration of the protein should be at least 2 mg/mL for optimal results. We recommend trying three different degrees of labeling, using three different molar ratios of the reactive reagent to protein.

The fluorescein succinimidyl ester is typically dissolved in high-quality, anhydrous dimethylformamide (DMF) or dimethylsulfoxide (DMSO) and the reaction carried out in 0.1–0.2 M sodium bicarbonate buffer, pH 8.3, at room temperature for 1 hour. Because the pKa of the terminal amine is lower than that of the lysine epsilon-amino group, you may achieve more selective labeling of the amine terminus using a buffer closer to neutral pH.

Conjugate Purification

Labeled antibodies are typically separated from free dye using a gel filtration column, such as Sephadex™ G-25, BioGel™ P-30, or equivalent. For much larger or smaller proteins, select a gel filtration media with an appropriate molecular weight cut-off or purify by dialysis.

Alternative Packagings

Mixed-isomer amine-reactive succinimidyl esters of fluorescein are also available in a 10 x 1 mg unit size (F6129), a single isomer (F6106), and with a spacer that is more hydrophilic than the SFX spacer (F6130), as well as in numerous kits for labeling proteins and nucleic acidsActive esters and kits for labeling proteins and nucleic acids—Table 1.2).

Product Properties

ReactivityAmine

Certificates

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Related Documents

References

1. Moore KJ, Turconi S, Ashman S, Ruediger M, Haupts U, Emerick V, Pope AJ.  ()  Single Molecule Detection Technologies in Miniaturized High Throughput Screening: Fluorescence Correlation Spectroscopy..  J Biomol Screen,      [PMID:10838431]
2. Tiyanont K, Doan T, Lazarus MB, Fang X, Rudner DZ, Walker S.  ()  Imaging peptidoglycan biosynthesis in Bacillus subtilis with fluorescent antibiotics..  Proc Natl Acad Sci U S A,      [PMID:16832063]
3. Díaz JF, Barasoain I, Souto AA, Amat-Guerri F, Andreu JM.  ()  Macromolecular accessibility of fluorescent taxoids bound at a paclitaxel binding site in the microtubule surface..  J Biol Chem,      [PMID:15550392]
4. Cruickshank KA.  ()  Quantitation of fluorescent nucleotide incorporation by capillary gel electrophoresis and laser-induced fluorescence detection..  Anal Biochem,      [PMID:10094771]
5. Lall S, Francis-Lang H, Flament A, Norvell A, Schüpbach T, Ish-Horowicz D.  ()  Squid hnRNP protein promotes apical cytoplasmic transport and localization of Drosophila pair-rule transcripts..  Cell,      [PMID:10428029]
6. Burgess TL, Qian Y, Kaufman S, Ring BD, Van G, Capparelli C, Kelley M, Hsu H, Boyle WJ, Dunstan CR, Hu S, Lacey DL.  ()  The ligand for osteoprotegerin (OPGL) directly activates mature osteoclasts..  J Cell Biol,      [PMID:10225954]
7. Cooper WC, Chrin LR, Berger CL.  ()  Detection of fluorescently labeled actin-bound cross-bridges in actively contracting myofibrils..  Biophys J,      [PMID:10692330]
8. MacLean JJ, Chrin LR, Berger CL.  ()  Dynamics at Lys-553 of the acto-myosin interface in the weakly and strongly bound states..  Biophys J,      [PMID:10692329]
9. Mongini PK, Liu Q, Vilensky MA, Highet PF, Inman JK.  ()  Evidence for an upper affinity threshold for anti-IgM-induced apoptosis in a human B-cell lymphoma..  Blood,      [PMID:9808570]
10. Craig DB, Wong JC, Polakowski R, Dovichi NJ.  ()  General protease assay method coupling solid-phase substrate extraction and capillary electrophoresis..  Anal Chem,      [PMID:9751024]
11. Bene L, Fulwyler MJ, Damjanovich S.  ()  Detection of receptor clustering by flow cytometric fluorescence anisotropy measurements..  Cytometry,      [PMID:10918280]
12. Rozinov MN, Nolan GP.  ()  Evolution of peptides that modulate the spectral qualities of bound, small-molecule fluorophores..  Chem Biol,      [PMID:9862799]
13. Crouse JA, Elliott GE, Burgess TL, Chiu L, Bennett L, Moore J, Nicolson M, Pacifici RE.  ()  Altered cell surface expression and signaling of leptin receptors containing the fatty mutation..  J Biol Chem,      [PMID:9660803]
14. Craig DB, Polakowski RM, Arriaga E, Wong JC, Ahmadzadeh H, Stathakis C, Dovichi NJ.  ()  Sodium dodecyl sulfate-capillary electrophoresis of proteins in a sieving matrix utilizing two-spectral channel laser-induced fluorescence detection..  Electrophoresis,      [PMID:9761200]
15. Gygi MP,Ferguson MD,Mefford HC,Lund KP,O'Day C,Zhou P,Friedman C,van den Engh G,Stolowitz ML,Trask BJ.  ()  Use of fluorescent sequence-specific polyamides to discriminate human chromosomes by microscopy and flow cytometry..  Nucleic Acids Res,      [PMID:12087162]
16. Futaki S, Suzuki T, Ohashi W, Yagami T, Tanaka S, Ueda K, Sugiura Y.  ()  Arginine-rich peptides. An abundant source of membrane-permeable peptides having potential as carriers for intracellular protein delivery..  J Biol Chem,      [PMID:11084031]
17. Fidock DA, Nomura T, Talley AK, Cooper RA, Dzekunov SM, Ferdig MT, Ursos LM, Sidhu AB, Naudé B, Deitsch KW, Su XZ, Wootton JC, Roepe PD, Wellems TE.  ()  Mutations in the P. falciparum digestive vacuole transmembrane protein PfCRT and evidence for their role in chloroquine resistance..  Mol Cell,      [PMID:11090624]
18. Linder V, Verpoorte E, Thormann W, de Rooij NF, Sigrist H.  ()  Surface biopassivation of replicated poly(dimethylsiloxane) microfluidic channels and application to heterogeneous immunoreaction with on-chip fluorescence detection..  Anal Chem,      [PMID:11569807]
19. Dornan S, Sebestyen Z, Gamble J, Nagy P, Bodnar A, Alldridge L, Doe S, Holmes N, Goff LK, Beverley P, Szollosi J, Alexander DR.  ()  Differential association of CD45 isoforms with CD4 and CD8 regulates the actions of specific pools of p56lck tyrosine kinase in T cell antigen receptor signal transduction..  J Biol Chem,      [PMID:11694532]
20. Szarka K, Bódis E, Visegrády B, Nyitrai M, Kilár F, Somogyi B.  ()  9-Anthroylnitrile binding to serine-181 in myosin subfragment 1 as revealed by FRET spectroscopy and molecular modeling..  Biochemistry,      [PMID:11732899]
21. Zhu X, Bidlingmaier S, Hashizume R, James CD, Berger MS, Liu B,.  ()  Identification of internalizing human single-chain antibodies targeting brain tumor sphere cells..  Mol Cancer Ther,      [PMID:20587664]
22. Prussin C, Metcalfe DD.  ()  Detection of intracytoplasmic cytokine using flow cytometry and directly conjugated anti-cytokine antibodies..  J Immunol Methods,      [PMID:8551029]
23. Smyczynski C, Kasprzak AA.  ()  Effect of nucleotides and actin on the orientation of the light chain-binding domain in myosin subfragment 1..  Biochemistry,      [PMID:9341208]
24. Li SC, Songyang Z, Vincent SJ, Zwahlen C, Wiley S, Cantley L, Kay LE, Forman-Kay J, Pawson T.  ()  High-affinity binding of the Drosophila Numb phosphotyrosine-binding domain to peptides containing a Gly-Pro-(p)Tyr motif..  Proc Natl Acad Sci U S A,      [PMID:9207069]
25. Wakarchuk W, Martin A, Jennings MP, Moxon ER, Richards JC.  ()  Functional relationships of the genetic locus encoding the glycosyltransferase enzymes involved in expression of the lacto-N-neotetraose terminal lipopolysaccharide structure in Neisseria meningitidis..  J Biol Chem,      [PMID:8702594]
26. Dill K, Lin M, Poteras C, Fraser C, Hafeman DG, Owicki JC, Olson JD.  ()  Antibody-antigen binding constants determined in solution-phase with the threshold membrane-capture system: binding constants for anti-fluorescein, anti-saxitoxin, and anti-ricin antibodies..  Anal Biochem,      [PMID:8203727]
27. Bertrand R, Derancourt J, Kassab R.  ()  Production and properties of skeletal myosin subfragment 1 selectively labeled with fluorescein at lysine-553 proximal to the strong actin-binding site..  Biochemistry,      [PMID:7626619]
28. Gumperz JE, Barber LD, Valiante NM, Percival L, Phillips JH, Lanier LL, Parham P.  ()  Conserved and variable residues within the Bw4 motif of HLA-B make separable contributions to recognition by the NKB1 killer cell-inhibitory receptor..  J Immunol,      [PMID:9164941]
29. Jamieson GP, Brocklebank AM, Snook MB, Sawyer WH, Buolamwini JK, Paterson AR, Wiley JS.  ()  Flow cytometric quantitation of nucleoside transporter sites on human leukemic cells..  Cytometry,      [PMID:8432200]

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