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Citations & References (6)
Invitrogen™
Zenon™ Mouse IgG1 Labeling Kits
Simplify your multicolor staining and flow cytometry experiments with our Zenon™ mouse IgG1 labeling kits.
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| Catalog Number | Quantity | Excitation/Emission | Label or Dye |
|---|---|---|---|
| Z25005 | 50 Reactions kit | 555/565 nm | Alexa Fluor 555 |
| Z25002 | 50 Reactions kit | 496/519 nm | Alexa Fluor 488 |
| Z25006 also known as Z-25006 | 50 Reactions kit | 578/603 nm | Alexa Fluor 568 |
| Z25007 | 50 Reactions kit | 590/617 nm | Alexa Fluor 594 |
| Z25008 | 50 Reactions kit | 650/668 nm | Alexa Fluor 647 |
| Z25011 | 50 Reactions kit | 696/719 nm | Alexa Fluor 700 |
| Z25013 | 50 Reactions kit | 402/421 nm | Alexa Fluor 405 |
| Z25051 also known as Z-25051 | 25 Reactions kit | 650/660 nm | APC (Allophycocyanin) |
| Z25052 also known as Z-25052 | 50 Reactions kit | Biotin | |
| Z25055 also known as Z-25055 | 25 Reactions kit | 496, 546, 565/578 nm | R-PE (R-Phycoerythrin) |
Catalog number Z25005
Price (CNY)
7,418.00
1 kit
Quantity:
50 Reactions kit
Excitation/Emission:
555/565 nm
Label or Dye:
Alexa Fluor 555
Price (CNY)
7,418.00
1 kit
Simplify your multicolor staining and flow cytometry experiments with our Zenon™ mouse IgG1 labeling kits. These antibody labeling kits are ideal for flow cytometry (e.g., FACS) experiments because they enable the simultaneous labeling of different target cells and tissues with differently labeled mouse monoclonal antibodies in a single staining protocol. Multiple Zenon™ antibody complexes may be prepared individually and used in a multicolor stain after using the Zenon™ blocking reagent.
Achieve fast, versatile, and reliable fluorophore-, biotin-, or enzyme-labeled primary antibodies with the Zenon™ mouse IgG1 labeling kits. These kits utilize Alexa Fluor fluorophores, biotin, Pacific Blue, or enzymes such as R-phycoerythrin and allophycocyanin, which are attached to monovalent, affinity purified Fab fragments. The Fab fragments, in turn, are directed against and bind with the Fc portion of IgG1 primary antibodies. Only a small amount of starting material is required, and the method is optimized for efficient labeling of antibodies in serum, ascites fluid, or hybridoma suspensions. Because the Zenon labeling method is based on immunoselectivity, it does not require the removal of exogenous proteins (such as serum) or amine-containing buffers from the target antibody, simplifying the process.
Zenon labeling technology greatly simplifies the use of multiple mouse-derived antibodies in the same staining protocol. Zenon tricolor labeling kits contain sufficient materials for 10 labeling reactions of each of three different fluorescent colors.
Important features of Zenon labeling technology:
• Labeled antibodies are typically ready to use in 10 minutes
• Requires only 1–20 μg primary antibody
• Simple—no purification required
• Flexible—choose from different fluorophores, biotin, HRP, alkaline phosphatase
• Multiplex with other mouse monoclonal antibodies simultaneously
• Can be used in a variety of applications including ICC, IHC, flow cytometry, and cell imaging.
Advantages of using Zenon antibody labeling kits:
Cost savings
Zenon antibody labeling kits offer a cost-conscious and reproducible method of tagging as little as 0.4 μg in 2 μL of primary antibody, with minimal waste of expensive or difficult-to-obtain antibodies, or excessive washing steps that pose the risk of product loss.
Sensitivity
Label your primary antibodies without compromising their antigen binding affinity: Zenon dye- and enzyme-labeled Fab fragments, which are targeted to the Fc tail, are affinity purified during their preparation to ensure high affinity and selectivity for the Fc portion of the corresponding primary antibody. The procedure for chemical labeling of the Zenon Fab fragments protects their Fc-binding site, resulting in more active labeling reagents.
Speed
No purification procedure is required prior to using Zenon Fab fragments in your laboratory applications. Formation of the Fab-antibody complex occurs in fewer than five minutes, followed by a five-minute blocking step. During this time, almost all the primary antibody in the mixture is labeled with the labeled Fab fragments.
Simplicity
The Fab-antibody complexes display fluorescence or enzymatic activity that is similar in intensity to that of directly labeled primary antibodies. Varying the extent of the antibody labeling is as simple as changing the amount of added Zenon labeling reagent during the reaction. Once the labeling complexes are formed, they can used immediately, without need for antibody purification.
Reliability
The Zenon Fab-antibody complex is stable and allows subsequent or simultaneous labeling of different target cells and tissues with different complexes. After staining, an aldehyde-based fixing step may be used to prevent the transfer of different labels between different primary antibodies, preserving the initial staining pattern.
Customization
We offer custom antibody conjugation services that are efficient and confidential, and we stand by the quality of our work. We are ISO 13485:2000 certified.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
ColorOrange
Excitation/Emission555/565 nm
Label TypeAlexa Fluor
Labeling Scale< 1–20 μg
Product LineZenon
Product TypeLabeling Kit
Quantity50 Reactions kit
SpeciesMouse
Labeling TargetIgG1
Label or DyeAlexa Fluor 555
Unit Size1 kit
Contents & Storage
Contains 1 vial of Zenon Alexa Fluor 555 mouse IgG1 labeling reagent (250 μL), and 1 vial of Zenon blocking reagent (mouse IgG, 250 μL).
Store in refrigerator (2–8°C) and protect from light.
Store in refrigerator (2–8°C) and protect from light.
Citations & References (6)
Citations & References
Abstract
Microtubule-associated [corrected] protein 7 increases the membrane expression of transient receptor potential vanilloid 4 (TRPV4).
Journal:J Biol Chem
PubMed ID:14517216
'The molecular mechanism of the transmission of changes in the shape of the cell surface to ion channels remains obscure. Ca2+ influx induced by cell deformity is inhibited by actin-freezing reagents, suggesting that the actin microfilament couples with an ion channel. Transient receptor potential vanilloid 4 (TRPV4) is a candidate
p62/SQSTM1 forms protein aggregates degraded by autophagy and has a protective effect on huntingtin-induced cell death.
Journal:J Cell Biol
PubMed ID:16286508
Autophagic degradation of ubiquitinated protein aggregates is important for cell survival, but it is not known how the autophagic machinery recognizes such aggregates. In this study, we report that polymerization of the polyubiquitin-binding protein p62/SQSTM1 yields protein bodies that either reside free in the cytosol and nucleus or occur within
Validation of a novel ultra-short immunolabeling method for high-quality mRNA preservation in laser microdissection and real-time reverse transcriptase-polymerase chain reaction.
Journal:J Mol Diagn
PubMed ID:16645212
Laser microdissection allows isolation of tiny samples from tissue sections for analysis of gene expression by real-time quantitative polymerase chain reaction (PCR). Although immunohistochemical labeling is often required to identify target structures, it drastically degrades mRNA so that shortened protocols are needed. Here, we present a novel method that allows
Regulation of angiotensin II type 1A receptor intracellular retention, degradation, and recycling by Rab5, Rab7, and Rab11 GTPases.
Journal:J Biol Chem
PubMed ID:14711821
Previous studies have demonstrated that the interaction of the angiotensin II type 1A receptor (AT(1A)R) carboxyl-terminal tail with Rab5a may modulate Rab5a activity, leading to the homotypic fusion of endocytic vesicles. Therefore, we have investigated whether AT(1A)R/Rab5a interactions mediate the retention of AT(1A)R.beta-arrestin complexes in early endosomes and whether the
The reversion-inducing cysteine-rich protein with Kazal motifs (RECK) interacts with membrane type 1 matrix metalloproteinase and CD13/aminopeptidase N and modulates their endocytic pathways.
Journal:J Biol Chem
PubMed ID:17329256
The reversion-inducing cysteine-rich protein with Kazal motifs (RECK) is anchored to the cell surface via glycosylphosphatidylinositol. This molecule antagonizes the function of membrane type 1 matrix metalloproteinase (MT1-MMP) to promote proMMP-2 maturation. Here, we attempt to clarify the mechanism underlying RECK functions. First, we found that RECK forms a complex