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Citations & References (8)
Invitrogen™
Click-iT™ Plus OPP Alexa Fluor™ 488 Protein Synthesis Assay Kit
The Click-iT™ Plus OPP Alexa Fluor™ 488 Protein Synthesis Assay Kit provides a fast, sensitive, and non-radioactive method for theRead more
| Catalog Number | Quantity |
|---|---|
| C10456 | 1 kit |
Catalog number C10456
Price (EUR)
875,65
線上優惠
928,00Save 52,35 (6%)
Each
Quantity:
1 kit
Price (EUR)
875,65
線上優惠
928,00Save 52,35 (6%)
Each
The Click-iT™ Plus OPP Alexa Fluor™ 488 Protein Synthesis Assay Kit provides a fast, sensitive, and non-radioactive method for the detection of protein synthesis using fluorescence microscopy or high-content imaging. In this assay O-propargyl-puromycin (OPP) is efficiently incorporated into newly translated proteins in complete methionine-containing media and fluorescently labeled with a bright, photostable Alexa Fluor™ dye in a fast, highly-specific, and mild click reaction.
Features of the kit include:
• No media change required—works in complete, methionine-containing media, no need to remove cell media
• Multiplex-enabled—Click-iT™ Plus technology retains signal from GFP and binding of fluorescent-conjugated phalloidins
• Non-radioactive—an alternative to the traditional 35S-methionine methods
• Works in vivo—published results demonstrate use in vivo for determination of protein translation
The kit contains O-propargyl-puromycin (OPP), which is an alkyne analog of puromycin (also available separately), as well as Alexa Fluor™ 488 picolyl azide and all necessary reagents to perform the Click reaction. The OPP is fed to cultured cells and incorporated into proteins during active protein synthesis. Addition of the Alexa Fluor™ 488 picolyl azide and the Click reaction reagents leads to a chemoselective ligation, or 'click' reaction, between the picolyl azide dye and the OPP alkyne, allowing the modified proteins to be detected by imaged-based analysis.
The click reaction uses bioorthogonal (biologically unique) moieties to fluorescently label proliferating cells, helping produce low backgrounds and high detection sensitivities. Because of the mild reaction conditions, Click-iT™ Plus assays detect protein translation events while enabling the preservation of cell morphology, the binding of fluorescently-labeled phalloidin, and the fluorescent signal from GFP.
Unlike 35S-methionine, used in traditional methods, OPP is not an amino acid analog, so it can be added directly to cells in complete media or used to determine protein synthesis in vivo.
The kit contains all of the components needed to label and detect the incorporated OPP in newly translated proteins in samples of adherent cells. The kit includes sufficient reagents for the labeling of 25 18 mm × 18 mm coverslips using 1 mL of reaction buffer per test.
Features of the kit include:
• No media change required—works in complete, methionine-containing media, no need to remove cell media
• Multiplex-enabled—Click-iT™ Plus technology retains signal from GFP and binding of fluorescent-conjugated phalloidins
• Non-radioactive—an alternative to the traditional 35S-methionine methods
• Works in vivo—published results demonstrate use in vivo for determination of protein translation
The kit contains O-propargyl-puromycin (OPP), which is an alkyne analog of puromycin (also available separately), as well as Alexa Fluor™ 488 picolyl azide and all necessary reagents to perform the Click reaction. The OPP is fed to cultured cells and incorporated into proteins during active protein synthesis. Addition of the Alexa Fluor™ 488 picolyl azide and the Click reaction reagents leads to a chemoselective ligation, or 'click' reaction, between the picolyl azide dye and the OPP alkyne, allowing the modified proteins to be detected by imaged-based analysis.
The click reaction uses bioorthogonal (biologically unique) moieties to fluorescently label proliferating cells, helping produce low backgrounds and high detection sensitivities. Because of the mild reaction conditions, Click-iT™ Plus assays detect protein translation events while enabling the preservation of cell morphology, the binding of fluorescently-labeled phalloidin, and the fluorescent signal from GFP.
Unlike 35S-methionine, used in traditional methods, OPP is not an amino acid analog, so it can be added directly to cells in complete media or used to determine protein synthesis in vivo.
The kit contains all of the components needed to label and detect the incorporated OPP in newly translated proteins in samples of adherent cells. The kit includes sufficient reagents for the labeling of 25 18 mm × 18 mm coverslips using 1 mL of reaction buffer per test.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Green FeaturesLess hazardous
Product LineClick-iT
Product TypeProtein Synthesis Assay Kit
Quantity1 kit
Reagent TypeNascent Protein Labeling Reagent
Label or DyeAlexa Fluor 488
Unit SizeEach
Contents & Storage
This kit contains: Click-iT™ OPP Reagent, Alexa Fluor™ dye picolyl azide, Click-iT™ OPP Reaction Buffer, Copper Protectant, Click-iT™ Reaction Buffer Additive, Click-iT™ Reaction Rise Buffer, and NuclearMask™ Blue Stain.
Frequently asked questions (FAQs)
I will be performing a cell proliferation assay using Click-iT EdU kit. At what point can I stop overnight, or do I have to perform all the steps continuously?
Citations & References (8)
Citations & References
Abstract
Transcriptome analysis of a CHO cell line expressing a recombinant therapeutic protein treated with inducers of protein expression.
Journal:
PubMed ID:26325199
'The search for specific productivity (qP) determinants in Chinese hamster ovary (CHO) cells has been the focus of the biopharmaceutical cell line engineering efforts aimed at creating '
Suppression of the GTPase-activating protein RGS10 increases Rheb-GTP and mTOR signaling in ovarian cancer cells.
Journal:
PubMed ID:26319900
The regulator of G protein signaling 10 (RGS10) protein is a GTPase activating protein that accelerates the hydrolysis of GTP and therefore canonically inactivates G proteins, ultimately terminating signaling. Rheb is a small GTPase protein that shuttles between its GDP- and GTP-bound forms to activate mTOR. Since RGS10 suppression augments
Nucleolar Enrichment of Brain Proteins with Critical Roles in Human Neurodevelopment.
Journal:Mol Cell Proteomics
PubMed ID:27053602
'To study nucleolar involvement in brain development, the nuclear and nucleolar proteomes from the rat cerebral cortex at postnatal day 7 were analyzed using LC-MS/iTRAQ methodology. Data of the analysis are available via ProteomeXchange with identifier PXD002188. Among 504 candidate nucleolar proteins, the overrepresented gene ontology terms included such cellular
The VHL short variant involves in protein quality control.
Journal:Gene
PubMed ID:27196060
'The von Hippel-Lindau (VHL) is the most important and frequently mutated gene in human clear cell renal cell carcinoma (ccRCC). In contrast to its long counterpart, the internal translational variant of VHL protein (VHLs) is evolutionarily conserved. Herein we present evidence that VHLs associates with ribosome complex via interaction with
Requirement of Neuronal Ribosome Synthesis for Growth and Maintenance of the Dendritic Tree.
Journal:J Biol Chem
PubMed ID:26757818
'The nucleolus serves as a principal site of ribosome biogenesis but is also implicated in various non-ribosomal functions, including negative regulation of the pro-apoptotic transcription factor p53. Although disruption of the nucleolus may trigger the p53-dependent neuronal death, neurotoxic consequences of a selective impairment of ribosome production are unclear. Here,