Di-4-ANBDQBS_Structure_SQ.jpg
Di4ANEPPS.jpg
Di-4-ANBDQBS_Structure_SQ.jpg
Di4ANEPPS.jpg

CytoVolt1 - Contact CytoCybernetics

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  • Absorbance, emission peaks in multilamellar lipid vesicles (MLVs) shown above: 531 nm, 722 nm.

  • Absorbance, emission peaks in ethanol: 572 nm, no fluorescence.

  • Recommended excitation range: 620-660 nm.

  • MW: 570.78 g/mol

  • Other names: Di-4-ANBDQBS (JPW-6033)

Available through our partnership with CytoCybernetics, Contact admin@cytocybernetics.com for a quote

Contact for Quote

  • Absorbance, emission peaks in multilamellar lipid vesicles (MLVs) shown above: 531 nm, 722 nm.

  • Absorbance, emission peaks in ethanol: 572 nm, no fluorescence.

  • Recommended excitation range: 620-660 nm.

  • MW: 570.78 g/mol

  • Other names: Di-4-ANBDQBS (JPW-6033)

Available through our partnership with CytoCybernetics, Contact admin@cytocybernetics.com for a quote

  • Absorbance, emission peaks in multilamellar lipid vesicles (MLVs) shown above: 531 nm, 722 nm.

  • Absorbance, emission peaks in ethanol: 572 nm, no fluorescence.

  • Recommended excitation range: 620-660 nm.

  • MW: 570.78 g/mol

  • Other names: Di-4-ANBDQBS (JPW-6033)

Available through our partnership with CytoCybernetics, Contact admin@cytocybernetics.com for a quote

Structure and Spectra

Product Details:

  • Pre-dried aliquots (solid, solvent removed)

  • Quantity: 100 nmol / tube (57 μg)

  • 2.0-mL free standing polypropylene tubes

    • Sealed cap

    • Individually labeled

    • Bagged with desiccant

 

Order Information

 

Success Stories

  1. Lopez-Izquierdo, A., M. Warren, M. Riedel, S. Cho, S. Lai, R. L. Lux, K. W. Spitzer, I. J. Benjamin, M. Tristani-Firouzi, and C. J. Jou. 2014. A near-infrared fluorescent voltage-sensitive dye allows for moderate-throughput electrophysiological analyses of human-induced pluripotent stem cell-derived cardiomyocytes. Am J Physiol Heart Circ Physiol. PubMed

  2. Matiukas, A., B. G. Mitrea, M. Qin, A. M. Pertsov, A. G. Shvedko, M. D. Warren, A. V. Zaitsev, J. P. Wuskell, M. D. Wei, J. Watras, and L. M. Loew. 2007. Near-infrared voltage-sensitive fluorescent dyes optimized for optical mapping in blood-perfused myocardium. Heart Rhythm. PubMed

  3. Warren, M., K. W. Spitzer, B. W. Steadman, T. D. Rees, P. Venable, T. Taylor, J. Shibayama, P. Yan, J. P. Wuskell, L. M. Loew, and A. V. Zaitsev. 2010. High-precision recording of the action potential in isolated cardiomyocytes using the near-infrared fluorescent dye di-4-ANBDQBS. Am J Physiol Heart Circ Physiol. PubMed

  4. Aras, K. K., N. R. Faye, B. Cathey, and I. R. Efimov. 2018. Critical Volume of Human Myocardium Necessary to Maintain Ventricular Fibrillation. Circ Arrhythm Electrophysiol. PubMed

  5. Lee, P., J. G. Quintanilla, J. M. Alfonso-Almazán, C. Galán-Arriola, P. Yan, J. Sánchez-González, N. Pérez-Castellano, J. Pérez-Villacastín, B. Ibañez, L. M. Loew, and D. Filgueiras-Rama. 2019. In-Vivo Ratiometric Optical Mapping Enables High-Resolution Cardiac Electrophysiology in Pig Models. Cardiovasc Res. PubMed