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Citations & References (97)
Invitrogen™
Calcium Green™-1 dextran, Potassium Salt, 10,000 MW, Anionic
Labeled calcium indicators are molecules that exhibit an increase in fluorescence upon binding Ca2+. They have uses in many calciumRead more
| Catalog Number | Quantity |
|---|---|
| C3713 | 5 mg |
Catalog number C3713
Price (BRL)
-
Quantity:
5 mg
Labeled calcium indicators are molecules that exhibit an increase in fluorescence upon binding Ca2+. They have uses in many calcium signaling investigations, including measuring intracellular Ca2+, following Ca2+ influx and release, and multiphoton excitation imaging of Ca2+ in living tissues. Cells may be physically loaded with the cell-impermeant salt forms of these dextran-conjugated indicators using patch pipette, microinjection, or our Influx pinocyte-loading reagent. 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.
Learn more about ion indicators including calcium, potassium, pH, and membrane potential indicators ›
Calcium Indicator (Cell-Impermeant Salts, Dextran Conjugates) Specifications:
• Label (Ex/Em): Calcium Green™ -1 (506/531 nm)
• Fluorescence intensity increase upon binding Ca2+: ∼14 fold
• Dextran size: 10,000 MW
• Exhibit fluorescence increase upon binding Ca2+ with little shift in wavelength
Spectral Characteristics of Molecular Probes™ Calcium Indicators
These probes are excited by visible light, and because the energy required for excitation is low, the potential for cellular photodamage is reduced. Commonly used laser-based instruments (i.e., confocal laser scanning microscopes) are able to efficiently excite these indicators, and their emissions are in regions of the spectrum where cellular autofluorescence and scattering backgrounds are often less of a problem.
More Choices for Fluorescent Calcium Indicators
We offer a large selection of Molecular Probes™ calcium indicators for use in various experimental scenarios, for example dextran versions for reduced leakage and compartmentalization and BAPTA conjugates for detecting high-amplitude calcium transients. For more information, review Fluorescent Ca2+ Indicators Excited with Visible Light—Section 19.3 in the Molecular Probes™ Handbook.
For UV-excitable Ca2+ indicators, protein-based Ca2+ indicators, conjugates of Ca2+ indicators, and for fluorescence-based indicators of other metal ions (i.e., Mg2+, Zn2+) review Indicators for Ca2+, Mg2+, Zn2+ and Other Metal Ions—Chapter 19 in the Molecular Probes™ Handbook.
For Research Use Only. Not intended for animal or human therapeutic or diagnostic use.
Learn more about ion indicators including calcium, potassium, pH, and membrane potential indicators ›
Calcium Indicator (Cell-Impermeant Salts, Dextran Conjugates) Specifications:
• Label (Ex/Em): Calcium Green™ -1 (506/531 nm)
• Fluorescence intensity increase upon binding Ca2+: ∼14 fold
• Dextran size: 10,000 MW
• Exhibit fluorescence increase upon binding Ca2+ with little shift in wavelength
Spectral Characteristics of Molecular Probes™ Calcium Indicators
These probes are excited by visible light, and because the energy required for excitation is low, the potential for cellular photodamage is reduced. Commonly used laser-based instruments (i.e., confocal laser scanning microscopes) are able to efficiently excite these indicators, and their emissions are in regions of the spectrum where cellular autofluorescence and scattering backgrounds are often less of a problem.
More Choices for Fluorescent Calcium Indicators
We offer a large selection of Molecular Probes™ calcium indicators for use in various experimental scenarios, for example dextran versions for reduced leakage and compartmentalization and BAPTA conjugates for detecting high-amplitude calcium transients. For more information, review Fluorescent Ca2+ Indicators Excited with Visible Light—Section 19.3 in the Molecular Probes™ Handbook.
For UV-excitable Ca2+ indicators, protein-based Ca2+ indicators, conjugates of Ca2+ indicators, and for fluorescence-based indicators of other metal ions (i.e., Mg2+, Zn2+) review Indicators for Ca2+, Mg2+, Zn2+ and Other Metal Ions—Chapter 19 in the Molecular Probes™ Handbook.
For Research Use Only. Not intended for animal or human therapeutic or diagnostic use.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Detection MethodFluorescence
Dye TypeFluorescent Dye-Based
Quantity5 mg
Shipping ConditionRoom Temperature
For Use With (Application)Cell Viability and Proliferation
For Use With (Equipment)Fluorescence Microscope
Product LineCalcium Green
Product TypeCalcium Indicator
Unit SizeEach
Contents & Storage
Store in freezer -5°C to -30°C and protect from light.
Citations & References (97)
Citations & References
Abstract
Vesicle-associated proteins and calcium in nerve terminals of chick ciliary ganglia during development of facilitation.
Journal:J Physiol
PubMed ID:9003550
'1. The developmental appearance of synaptic vesicle-associated proteins and nerve terminal calcium ([Ca2+]i) sequestering processes were determined for the chick ciliary ganglia in relation to the maturation of the different phase of increased efficacy of transmitter release following nerve impulses. The maturation phases studied were from stages 34-35, at the
Ca2+ influx does more than provide releasable Ca2+ to maintain repetitive spiking in human umbilical vein endothelial cells.
Journal:Biochem J
PubMed ID:8973560
'We investigated why oscillations of intracellular Ca2+ concentrations ([Ca2+]i) in endothelial cells challenged by sub-maximal histamine run down in Ca(2+)-free medium despite stores retaining most of their Ca2+. One explantation is that only a small subpopulation of the Ca2+ stores oscillate and are completely emptied of Ca2+. To investigate if
Maturation promoting factor in ascidian oocytes is regulated by different intracellular signals at meiosis I and II.
Journal:Development
PubMed ID:8681780
'Using the fluorescent dye Calcium Green-dextran, we measured intracellular Ca2+ in oocytes of the ascidian Ciona intestinalis at fertilization and during progression through meiosis. The relative fluorescence intensity increased shortly after insemination in a single transient, the activation peak, and this was followed by several smaller oscillations that lasted for
Calcium permeability of the neuronal nuclear envelope: evaluation using confocal volumes and intracellular perfusion.
Journal:J Neurosci
PubMed ID:7931542
'In many calcium-imaging studies, the nuclear envelope appears to maintain a gradient of free calcium between the nucleus and cytosol. This issue was examined by loading amphibian sympathetic neurons with the calcium indicator fluo 3 via whole-cell patch clamping. Confocal optical sectioning allowed acquisition of independent calibration curves for the
Calcium signalling during chemotaxis.
Journal:Ciba Found Symp
PubMed ID:7587614
'The role of Ca2+ in chemotaxis of eosinophils from the newt Taricha granulosa was investigated using fluorescent indicators and digital imaging microscopy. In response to serum chemoattractant, cytoplasmic Ca2+ concentration ([Ca2+]i) rises prior to polarization. In polarized locomoting cells [Ca2+]i gradients (tail-high-front-low) are always seen, and when cells turn [Ca2+]i