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Results for "

acceptor fluorophore

" in MedChemExpress (MCE) Product Catalog:

5

Inhibitors & Agonists

4

Fluorescent Dye

1

Peptides

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-134566
    NBD-X, SE

    		Fluorescent Dye Others
    NBD-X, SE, the acceptor fluorophore, can be used to create environment sensitive bioconjugates .
    NBD-X, SE
  • HY-W072147
    Fmoc-Ser-OMe

    Fmoc-L-Ser-OMe

    		 Amino Acid Derivatives Others
    Fmoc-Ser-OMe (Fmoc-L-Ser-OMe) is a hydroxylated L-amino acid protected with a 9-fluorenylmethyloxycarbonyl (Fmoc) group. Fmoc-Ser-OMe involves in chlorophyll–amino acid conjugates synthesis, and acts as a chromo/fluorophores modified protein and emits visible to near-infrared lights efficiently. Fmoc-Ser-OMe glycosylates and produces small mucin-related Olinked glycopeptides, as an alcohol acceptor .
    Fmoc-Ser-OMe
  • HY-D1373
    HBC
    1 Publications Verification

    HBC 530

    		 Fluorescent Dye Others
    HBC (HBC 530) is a GFP fluorophore-like synthetic dye, with a structurally rigid electron acceptor and a strong electron donor. HBC is nonfluorescent in solution, and when combined with Pepper (RNA aptamer), HBC forms a tight complex and activates and emits bright fluorescence (Kd of ~3.5 nM). HBC emission peaks vary in different complexes and covers the spectrum from cyan to red. HBC can be used in the live cell imaging of RNA (Em/Ex = 530/485 nm) .
    HBC
  • HY-112526
    Thiofluor 623

    		Fluorescent Dye Others
    Thiofluor 623 (Compound 3) is a fluorescent turn-on probe that can be used for the selective sensing and bioimaging of thiols. Thiofluor 623 displays excellent immunity to interference from nitrogen and oxygen nucleophiles. Thiofluor 623 is essentially nonfluorescent in the absence of thiols, which cleave the probe and release the red-emissive donor-acceptor fluorophore (Ex=563 nm, Em=623 nm) .
    Thiofluor 623
  • HY-125452
    DiSBAC10

    		Fluorescent Dye Others
    DiSBAC10 is a voltage-sensitive fluorescent probe used to study cell membrane electrical activity in FRET assays. In a resting polarized cell, DiSBAC10 resides on the outer leaflet of the membrane where it accepts photons from excited fluorescein-labeled proteins and re-emits the photons at a higher wavelength. Depolarization of the cell causes rapid translocation of DiSBAC10 to the inner leaflet of the membrane, thereby increasing the distance between fluorophores and reducing the FRET signal.
    DiSBAC10

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