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Cal-590™-Dextran Conjugate *MW 10,000*
Calcium measurement is critical for numerous biological investigations. Fluorescent probes that show spectral responses upon binding calcium have enabled researchers to investigate changes in intracellular free calcium concentrations by using fluorescence microscopy, flow cytometry, fluorescence spectroscopy and fluorescence microplate readers. Cells may be physically loaded with the cell-impermeant salt forms of these dextran-conjugated calcium indicators using patch pipette or microinjection. The fluorescence signal from these cells is measured using fluorescence microscopy. The dextran forms of our calcium indicators show a dramatic reduction in both leakage and compartmentalization compared to the AM ester forms. Among the fluorescent calcium indicator dextran conjugates, Cal-590 dextran conjugates might be a better choice than other red fluorescent dextrtan conjugates due to its higher fluorescence quantum yield and larger fluorescence enhancement by calcium. This Cal-590 dextran conjugate has Kd of 1.0 uM.
Spectrum
Product family
| Name | Excitation (nm) | Emission (nm) |
| Cal-590L® Dextran Conjugate *MW 10,000* | 569 | 590 |
| Cal-630™-Dextran Conjugate *MW 3,000* | 609 | 626 |
| Cal-630™-Dextran Conjugate *MW 10,000* | 609 | 626 |
| Cal-520®-Dextran Conjugate *MW 3,000* | 492 | 515 |
| Cal-520®-Dextran Conjugate *MW 10,000* | 492 | 515 |
| Cal-670™-Dextran Conjugate *MW 3,000* | 667 | 680 |
| Cal-670™-Dextran Conjugate *MW 10,000* | 667 | 680 |
| Cal-770™-Dextran Conjugate *MW 3,000* | 758 | 783 |
| Cal-770™-Dextran Conjugate *MW 10,000* | 758 | 783 |
Citations
View all 9 citations: Citation Explorer
Ca2+-driven cytoplasmic backflow secures spindle position in fertilized mouse eggs
Authors: Totsuka, Takaya and Ohsugi, Miho
Journal: bioRxiv (2024): 2024--02
Authors: Totsuka, Takaya and Ohsugi, Miho
Journal: bioRxiv (2024): 2024--02
Smuggling on the Nanoscale—Fusogenic Liposomes Enable Efficient RNA-Transfer with Negligible Immune Response In Vitro and In Vivo
Authors: Hoffmann, Marco and Gerlach, Sven and Takamiya, Masanari and Tarazi, Samar and Hersch, Nils and Csisz{\'a}r, Agnes and Springer, Ronald and Dreissen, Georg and Scharr, Hanno and Rastegar, Sepand and others,
Journal: Pharmaceutics (2023): 1210
Authors: Hoffmann, Marco and Gerlach, Sven and Takamiya, Masanari and Tarazi, Samar and Hersch, Nils and Csisz{\'a}r, Agnes and Springer, Ronald and Dreissen, Georg and Scharr, Hanno and Rastegar, Sepand and others,
Journal: Pharmaceutics (2023): 1210
The mammalian olfactory bulb contributes to the adaptation of odor responses: a second perceptual computation carried out by the bulb
Authors: Storace, Douglas A and Cohen, Lawrence B
Journal: Eneuro (2021)
Authors: Storace, Douglas A and Cohen, Lawrence B
Journal: Eneuro (2021)
Hypothalamic dopamine neurons control sensorimotor behavior by modulating brainstem premotor nuclei
Authors: Barrios, Joshua P and Wang, Wei-Chun and England, Roman and Reifenberg, Erica and Douglass, Adam D
Journal: bioRxiv (2020)
Authors: Barrios, Joshua P and Wang, Wei-Chun and England, Roman and Reifenberg, Erica and Douglass, Adam D
Journal: bioRxiv (2020)
Measuring the olfactory bulb input-output transformation reveals a contribution to the perception of odorant concentration invariance
Authors: Storace, Douglas A and Cohen, Lawrence B
Journal: Nature communications (2017): 1--11
Authors: Storace, Douglas A and Cohen, Lawrence B
Journal: Nature communications (2017): 1--11
Page updated on November 21, 2024
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