TSQ [N-(6-Methoxy-8-quinolyl)-p-toluenesulfonamide]
Ordering information
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Additional ordering information
Telephone | 1-800-990-8053 |
Fax | 1-800-609-2943 |
sales@aatbio.com | |
International | See distributors |
Bulk request | Inquire |
Custom size | Inquire |
Shipping | Standard overnight for United States, inquire for international |
Physical properties
Molecular weight | 328.38 |
Solvent | DMSO |
Spectral properties
Excitation (nm) | 355 |
Emission (nm) | 499 |
Storage, safety and handling
Certificate of Origin | Download PDF |
H-phrase | H303, H313, H333 |
Hazard symbol | XN |
Intended use | Research Use Only (RUO) |
R-phrase | R20, R21, R22 |
Storage | Freeze (< -15 °C); Minimize light exposure |
UNSPSC | 12352200 |
Overview | SDSProtocol |
See also: Intracellular Ions
CAS 109628-27-5 | Molecular weight 328.38 | Excitation (nm) 355 | Emission (nm) 499 |
TSQ is a fluorescent zinc indicator with high sensitivity.
Calculators
Common stock solution preparation
Table 1. Volume of DMSO needed to reconstitute specific mass of TSQ [N-(6-Methoxy-8-quinolyl)-p-toluenesulfonamide] to given concentration. Note that volume is only for preparing stock solution. Refer to sample experimental protocol for appropriate experimental/physiological buffers.
0.1 mg | 0.5 mg | 1 mg | 5 mg | 10 mg | |
1 mM | 304.525 µL | 1.523 mL | 3.045 mL | 15.226 mL | 30.453 mL |
5 mM | 60.905 µL | 304.525 µL | 609.05 µL | 3.045 mL | 6.091 mL |
10 mM | 30.453 µL | 152.263 µL | 304.525 µL | 1.523 mL | 3.045 mL |
Molarity calculator
Enter any two values (mass, volume, concentration) to calculate the third.
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Citations
View all 5 citations: Citation Explorer
Iron free zinc oxide nanoparticles with ion-leaking properties disrupt intracellular ROS and iron homeostasis to induce ferroptosis
Authors: Zhang, Changping and Liu, Zixuan and Zhang, Yuhao and Ma, Liang and Song, Erqun and Song, Yang
Journal: Cell Death \& Disease (2020): 1--15
Authors: Zhang, Changping and Liu, Zixuan and Zhang, Yuhao and Ma, Liang and Song, Erqun and Song, Yang
Journal: Cell Death \& Disease (2020): 1--15
Zinc oxide nanoparticles effectively regulate autophagic cell death by activating autophagosome formation and interfering with their maturation
Authors: Liu, Zixuan and Lv, Xuying and Xu, Lei and Liu, Xuting and Zhu, Xiangyu and Song, Erqun and Song, Yang
Journal: Particle and fibre toxicology (2020): 1--17
Authors: Liu, Zixuan and Lv, Xuying and Xu, Lei and Liu, Xuting and Zhu, Xiangyu and Song, Erqun and Song, Yang
Journal: Particle and fibre toxicology (2020): 1--17
The role of nitric oxide synthase in an early phase Cd-induced acute cytotoxicity in MCF-7 cells
Authors: Zhong, Lingying and Wang, Lumei and Xu, Lurong and Liu, Qunlu and Jiang, Linlei and Zhi, Yuee and Lu, Wei and Zhou, Pei
Journal: Biological Trace Element Research (2015): 130--138
Authors: Zhong, Lingying and Wang, Lumei and Xu, Lurong and Liu, Qunlu and Jiang, Linlei and Zhi, Yuee and Lu, Wei and Zhou, Pei
Journal: Biological Trace Element Research (2015): 130--138
The role of nitric oxide synthase in an early phase Cd-induced acute cytotoxicity in MCF-7 cells
Authors: Zhong, Lingying and Wang, Lumei and Xu, Lurong and Liu, Qunlu and Jiang, Linlei and Zhi, Yuee and Lu, Wei and Zhou, Pei
Journal: Biological trace element research (2015): 130--138
Authors: Zhong, Lingying and Wang, Lumei and Xu, Lurong and Liu, Qunlu and Jiang, Linlei and Zhi, Yuee and Lu, Wei and Zhou, Pei
Journal: Biological trace element research (2015): 130--138
The role of NOS-mediated ROS accumulation in an early phase Cu-induced acute cytotoxicity in MCF-7 cells
Authors: Zhong, Lingying and Wang, Lumei and Xu, Lurong and Liu, Qunlu and Jiang, Linlei and Zhi, Yuee and Lu, Wei and Zhou, Pei
Journal: Biometals (2015): 113--122
Authors: Zhong, Lingying and Wang, Lumei and Xu, Lurong and Liu, Qunlu and Jiang, Linlei and Zhi, Yuee and Lu, Wei and Zhou, Pei
Journal: Biometals (2015): 113--122
References
View all 36 references: Citation Explorer
Neurotoxic zinc translocation into hippocampal neurons is inhibited by hypothermia and is aggravated by hyperthermia after traumatic brain injury in rats
Authors: Suh SW, Frederickson CJ, Danscher G.
Journal: J Cereb Blood Flow Metab (2006): 161
Authors: Suh SW, Frederickson CJ, Danscher G.
Journal: J Cereb Blood Flow Metab (2006): 161
In vivo measurement of presynaptic Zn2+ release during forebrain ischemia in rats
Authors: Kitamura Y, Iida Y, Abe J, Mifune M, Kasuya F, Ohta M, Igarashi K, Saito Y, Saji H.
Journal: Biol Pharm Bull (2006): 821
Authors: Kitamura Y, Iida Y, Abe J, Mifune M, Kasuya F, Ohta M, Igarashi K, Saito Y, Saji H.
Journal: Biol Pharm Bull (2006): 821
Histochemical and histofluorescence tracing of chelatable zinc in the developing mouse
Authors: Nitzan YB, Sekler I, Silverman WF.
Journal: J Histochem Cytochem (2004): 529
Authors: Nitzan YB, Sekler I, Silverman WF.
Journal: J Histochem Cytochem (2004): 529
Abundance of zinc ions in synaptic terminals of mocha mutant mice: zinc transporter 3 immunohistochemistry and zinc sulphide autometallography
Authors: Stoltenberg M, Nejsum LN, Larsen A, Danscher G.
Journal: J Mol Histol (2004): 141
Authors: Stoltenberg M, Nejsum LN, Larsen A, Danscher G.
Journal: J Mol Histol (2004): 141
Method for identifying neuronal cells suffering zinc toxicity by use of a novel fluorescent sensor
Authors: Frederickson CJ, Burdette SC, Sensi SL, Weiss JH, Yin HZ, Balaji RV, Truong-Tran AQ, Bedell E, Prough DS, Lippard SJ.
Journal: J Neurosci Methods (2004): 79
Authors: Frederickson CJ, Burdette SC, Sensi SL, Weiss JH, Yin HZ, Balaji RV, Truong-Tran AQ, Bedell E, Prough DS, Lippard SJ.
Journal: J Neurosci Methods (2004): 79
Zinc release contributes to hypoglycemia-induced neuronal death
Authors: Suh SW, Garnier P, Aoyama K, Chen Y, Swanson RA.
Journal: Neurobiol Dis (2004): 538
Authors: Suh SW, Garnier P, Aoyama K, Chen Y, Swanson RA.
Journal: Neurobiol Dis (2004): 538
Clioquinol effects on tissue chelatable zinc in mice
Authors: Nitzan YB, Sekler I, Frederickson CJ, Coulter DA, Balaji RV, Liang SL, Margulis A, Hershfinkel M, Silverman WF.
Journal: J Mol Med (Berl) (2003): 637
Authors: Nitzan YB, Sekler I, Frederickson CJ, Coulter DA, Balaji RV, Liang SL, Margulis A, Hershfinkel M, Silverman WF.
Journal: J Mol Med (Berl) (2003): 637
Development and characterization of simulant pancreatic islets
Authors: Maghasi AT, Schlueter KT, Halsall HB, Heineman WR, Rodriguez Rilo HL.
Journal: Anal Biochem (2003): 38
Authors: Maghasi AT, Schlueter KT, Halsall HB, Heineman WR, Rodriguez Rilo HL.
Journal: Anal Biochem (2003): 38
Intracellular zinc fluxes associated with apoptosis in growth plate chondrocytes
Authors: Sauer GR, Smith DM, Cahalane M, Wu LN, Wuthier RE.
Journal: J Cell Biochem (2003): 954
Authors: Sauer GR, Smith DM, Cahalane M, Wu LN, Wuthier RE.
Journal: J Cell Biochem (2003): 954
Expression of P2X6, a purinergic receptor subunit, is affected by dietary zinc deficiency in rat hippocampus
Authors: Chu Y, Mouat MF, Coffield JA, Orl and o R, Grider A.
Journal: Biol Trace Elem Res (2003): 77
Authors: Chu Y, Mouat MF, Coffield JA, Orl and o R, Grider A.
Journal: Biol Trace Elem Res (2003): 77
Application notes
A Comparison of Fluorescent Red Calcium Indicators for Detecting Intracellular Calcium Mobilization in CHO Cells
A Meta-Analysis of Common Calcium Indicators
A New Red Fluorescent & Robust Screen Quest™ Rhod-4™ Ca2+Indicator for Screening GPCR & Ca2+ Channel Targets
A New Robust No-Wash FLIPR Calcium Assay Kit for Screening GPCR and Calcium Channel Targets
A Novel NO Wash Probeniceid-Free Calcium Assay for Functional Analysis of GPCR and Calcium Channel Targets
A Meta-Analysis of Common Calcium Indicators
A New Red Fluorescent & Robust Screen Quest™ Rhod-4™ Ca2+Indicator for Screening GPCR & Ca2+ Channel Targets
A New Robust No-Wash FLIPR Calcium Assay Kit for Screening GPCR and Calcium Channel Targets
A Novel NO Wash Probeniceid-Free Calcium Assay for Functional Analysis of GPCR and Calcium Channel Targets
FAQ
Are there any calcium indicators that don't require probenecid (PBC)?
Are there any substitutes for probenecid in calcium assays?
Are there upgraded trypan blue derivatives for cell viability testing?
Can I intracellularly measure mitochondria calcium flux and changes in mitochondria membrane potential at the same time?
Can I use a conjugated primary antibody in my immunofluorescence experiment?
Are there any substitutes for probenecid in calcium assays?
Are there upgraded trypan blue derivatives for cell viability testing?
Can I intracellularly measure mitochondria calcium flux and changes in mitochondria membrane potential at the same time?
Can I use a conjugated primary antibody in my immunofluorescence experiment?