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인용 및 참조 문헌 (28)
Invitrogen™
Calcium Orange™, AM, cell permeant - Special Packaging
Labeled calcium indicators are molecules that exhibit an increase in fluorescence upon binding Ca2+. They have uses in many calcium자세히 알아보기
| 카탈로그 번호 | 수량 |
|---|---|
| C3015 C-3015으로도 사용됨 | 10 x 50 μg |
카탈로그 번호 C3015
C-3015으로도 사용됨
제품 가격(KRW)
472,000
Online offer
Ends: 30-Sep-2025
555,000할인액 83,000 (15%)
Each
-
수량:
10 x 50 μg
제품 가격(KRW)
472,000
Online offer
Ends: 30-Sep-2025
555,000할인액 83,000 (15%)
Each
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 loaded with the AM ester forms of these calcium indicators by adding the dissolved indicator directly to dishes containing cultured cells. The fluorescence signal from these cells is generally measured using fluorescence microscopy, fluorescence microplate assays, or flow cytometry.
Learn more about ion indicators including calcium, potassium, pH, and membrane potential indicators ›
Calcium Indicator (AM Ester) Specifications:
• Label (Ex/Em): Calcium Orange™ (549/576 nm)
• Fluorescence intensity increase upon binding Ca2+ : ∼3 fold
• 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 (AM Ester) Specifications:
• Label (Ex/Em): Calcium Orange™ (549/576 nm)
• Fluorescence intensity increase upon binding Ca2+ : ∼3 fold
• 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.
사양
검출 방법Fluorescence
염료 유형Fluorescent Dye-Based
수량10 x 50 μg
배송 조건Room Temperature
용도(애플리케이션)Cell Viability and Proliferation
용도 (장비)Fluorescence Microscope
제품라인CALCIUM ORANGE
제품 유형Calcium Indicator
Unit SizeEach
구성 및 보관
Store in freezer -5°C to -30°C and protect from light.
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그림
Chemical Structure
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Certificates | 증명서
Lot 번호 또는 부분 Lot 번호로 검색하십시오.
Lot 번호Certificate TypeDateCatalog Number(s)
3163215Certificate of Analysis2025년 5월 03일C3015
2994047Certificate of Analysis2024년 8월 09일C3015
2838697Certificate of Analysis2024년 1월 03일C3015
2795219Certificate of Analysis2023년 11월 08일C3015
2680191Certificate of Analysis2023년 8월 15일C3015
시험 성적서 관련 5 개의 결과가 검색되었습니다.
Safety Data Sheets | 물질 안전 보건 자료
SDSProduct Information
Molecular Probes® 핸드북
자주 묻는 질문(FAQ)
The nail polish may be the problem. The Kd value (calcium sensitivity) changes depending upon the dye's environment. Nail polish has solvents that can leech under the coverslip and cause variability. We recommend either going without a sealing or sealing with melted paraffin painted on the coverslip edges with a cotton-tipped applicator (paraffin is hydrophobic and has no solvents).
Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.
This is a known drawback of Calcium Crimson, AM (as well as Calcium Orange, AM and Fura Red, AM, which are also in the same emission range). You can try increasing the concentration and washing out of any unlabeled dye from the media, to try to get better signal-to-background. If that fails, we recommend using Rhod-3 AM instead, which has a much better change in signal in that wavelength.
Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.
After loading dye into the cells, intracellular esterases remove the 'AM' moiety from the dye. When the 'AM' group is removed, the dye is able to bind calcium and fluoresce. Since the dye is not covalently bound to any cellular components, it may be actively effluxed from the cell. The rate of efflux is dependent upon the inherent properties of the cell, culture conditions and other factors. The dye may be retained for hours, days or even weeks or lost in a matter of minutes. The use of Probenecid (Cat. No. P36400) limits loss by active efflux.
Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.
인용 및 참조 문헌 (28)
Search citations by name, author, journal title or abstract text
인용 및 참조 문헌
Abstract
AM-loading of fluorescent Ca2+ indicators into intact single fibers of frog muscle.
Journal:Biophys J
PubMed ID:9168048
'The AM loading of a number of different fluorescent Ca2+ indicators was compared in intact single fibers of frog muscle. Among the 13 indicators studied, loading rates (the average increase in the fiber concentration of indicator per first 60 min of loading) varied approximately 100-fold, from approximately 3 microM/h to
Intracellular Ca2+ dynamics during spontaneous and evoked activity of leech heart interneurons: low-threshold Ca currents and graded synaptic transmission.
Journal:J Neurosci
PubMed ID:10864951
'In oscillatory neuronal networks that pace rhythmic behavior, Ca(2+) entry through voltage-gated Ca channels often supports bursting activity and mediates graded transmitter release. We monitored simultaneously membrane potential and/or ionic currents and changes of Ca fluorescence (using the fluorescence indicator Ca Orange) in spontaneously active and experimentally manipulated oscillator heart
The role of Ca(2+) in stimulated bioluminescence of the dinoflagellate Lingulodinium polyedrum.
Journal:J Exp Biol
PubMed ID:12200401
'Many marine dinoflagellates emit bright discrete flashes of light nearly instantaneously in response to either laminar or turbulent flows as well as to direct mechanical stimulation. The flash involves a unique pH-dependent luciferase and a proton-mediated action potential across the vacuole membrane. The mechanotransduction process initiating this action potential is
Ryanodine receptor mutations associated with stress-induced ventricular tachycardia mediate increased calcium release in stimulated cardiomyocytes.
Journal:Circ Res
PubMed ID:12919952
'Ca2+ release from the sarcoplasmic reticulum mediated by the cardiac ryanodine receptor (RyR2) is a fundamental event in cardiac muscle contraction. RyR2 mutations suggested to cause defective Ca2+ channel function have recently been identified in catecholaminergic polymorphic ventricular tachycardia (CPVT) and arrhythmogenic right ventricular dysplasia (ARVD) affected individuals. We report
Cell-permeant Ca2+ chelators reduce early excitotoxic and ischemic neuronal injury in vitro and in vivo.
Journal:Neuron
PubMed ID:8102532
'We report the characterization of the first successful treatment of neuronal ischemic injury in vivo by cell-permeant Ca2+ chelators. The chelators attenuated glutamate-induced intracellular Ca2+ increases and neurotoxicity in neuronal explant cultures. When infused intravenously in rats, permeant fluorescent BAPTA analogs accumulated in neurons in several brain regions. BAPTA-AM, infused
28 total citations