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Results for "

Hcy

" in MedChemExpress (MCE) Product Catalog:

5

Inhibitors & Agonists

2

Fluorescent Dye

1

Biochemical Assay Reagents

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-155486

    Others Cancer
    HCy-AAN-Bio is a tumor-targeted hemicyanine (HCy) probe for Fluorescent/photoacoustic (FL/PA) imaging of legumain in vivo. Legumain can specifically cleave HCy-AAN-Bio with the generation of FL/PA signal. HCy-AAN-Bio is a powerful tool for early diagnosis of associated cancer .
    HCy-AAN-Bio
  • HY-147738

    Fluorescent Dye Others
    SQM-NBD is a potent and selectiveAIE fluorescent probe. SQM-NBD exhibits excellent sensitivity to Cys and Hcy with the LOD of 54 nM and 72 nM, respectively.SQM-NBD has good cell permeability and low cytotoxicity. SQM-NBD has the potential for Cys/Hcy identification under physiological and pathological conditions .
    SQM-NBD
  • HY-D2315

    Fluorescent Dye Cancer
    Probe-Cys is a water-soluble and selective near-infrared fluorescent probe for Cys (λex= 680 nm, λem=710 nm) that is not interfered by Hcy, GSH, and HS-. Probe-Cys can react with the stimulant 1,4-dimercaptothreitol (DTT) and the inhibitor N-ethylmaleimide (NEM) in HepG2 cells and zebrafish for the detection of endogenous Cys. Probe-Cys can also be used for imaging Cys in Arabidopsis thaliana. Probe-Cys provides a method for cancer diagnosis and exploration of plant sulfur metabolism .
    Probe-Cys
  • HY-D1066

    Fluorescent Dye Others
    NIR-Thiol dinitrobenzenesulfonate has both absorption and emission in the NIR region. NIR-Thiol dinitrobenzenesulfonate responds to thiol with a large turn-on NIR fluorescence signal upon excitation in the NIR region. NIR-Thiol dinitrobenzenesulfonate is capable of imaging endogenously produced thiol in living cells and mice .
    NIR-Thiol dinitrobenzenesulfonate
  • HY-136675

    Others Others
    ASMI is a novel ratiometric two-photon fluorescent probe that can selectively detect and monitor mitochondrial Cys with rapid responsiveness and high contrast and brightness imaging of living cells and intact tissues at a depth of 150 μm. ASMI consists of highly two-photon active biocompatible merocyanine fluorescein and an acrylic acid group as a thiol reactive site. It has been extensively explored as a fluorescent sensing or imaging probe due to its easily tunable organelle targeting and large two-photon absorption properties. Some acrylic acid-functionalized probes tend to react more actively with Cys than with Hcy and GSH. The reaction mechanism involves the conjugate addition of Cys to acrylic acid to generate a thioether, followed by intramolecular cyclization to generate merocyanine fluorescein and a cyclic amide (Scheme 1). Importantly, the biocompatible and photostable ASMI and merocyanine show very large two-photon action cross sections (Φσmax) of 65.2 GM (λex = 740 nm) and 72.6 GM (λex = 760 nm), respectively, which make them have great potential in high-contrast and bright ratiometric two-photon excitation bioimaging applications. ASMI is a ratiometric fluorescent probe that exhibits a two-photon excitation mode for highly selective detection and imaging of mitochondrial Cys in living cells and deep tissue applications.
    ASMI

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