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DYKDDDDK Tag (Anti-FLAG®) Antibody
Rabbit Polyclonal
58 References
600-401-383S
600-401-383
25 µL
250 µg
Liquid (sterile filtered)
Liquid (sterile filtered)
WB, ELISA, IHC, IF, IP, Multiplex
FLAG-Tag
Rabbit
Shipping info:
$50.00 to US & $70.00 to Canada for most products. Final costs are calculated at checkout.
Product Details
Antibody for the detection of FLAG® conjugated proteins (RABBIT) - 600-401-383
rabbit antibody for the detection of FLAG™ conjugated proteins, rabbit anti DYKDDDDK
Rabbit
Polyclonal
IgG
Target Details
FLAG-Tag
Conjugated Peptide
This antibody was purified from whole rabbit serum prepared by repeated immunizations with the Enterokinase Cleavage Site (ECS) peptide DYKDDDDK (Asp-Tyr-Lys-Asp-Asp-Asp-Asp-Lys) conjugated to KLH using maleimide. This antibody reacts with FLAG™ conjugated proteins.
This affinity purified antibody is directed against the FLAG™ motif and is useful in determining its presence in various assays. This polyclonal anti-FLAG™ tag antibody detects over-expressed proteins containing the FLAG™ epitope tag. In western blotting of bacterial extracts, the antibody does not cross-react with endogenous proteins.
Application Details
ELISA, WB
IF, IHC, IP, Multiplex
- View References
This antibody is optimally suited for monitoring the expression of FLAG™ tagged fusion proteins. As such, this antibody can be used to identify fusion proteins containing the FLAG™ epitope. The antibody recognizes the epitope tag fused to either the amino- or carboxy- termini of targeted proteins. This antibody has been tested by ELISA and western blotting against both the immunizing peptide and FLAGä containing recombinant proteins. Although not tested, this antibody is likely functional for immunoprecipitation, immunocytochemistry, and other immunodetection techniques. The epitope tag peptide sequence was first derived from the 11-amino-acid leader peptide of the gene-10 product from bacteriophage T7. Now the most commonly used hydrophilic octapeptide is DYKDDDDK. Rockland Immunochemical's polyclonal antibody to detect FLAG™ conjugated proteins binds FLAG™ containing fusion proteins with greater affinity than the widely used monoclonal M1, M2 and M5 clones, and shows greater sensitivity in most assays. Affinity purification of the polyclonal antibody results in very low background levels in assays and low cross-reactivity with other cellular proteins.
Formulation
1.10 by UV absorbance at 280 nm
0.02 M Potassium Phosphate, 0.15 M Sodium Chloride, pH 7.2
0.01% (w/v) Sodium Azide
None
Shipping & Handling
Dry Ice
Store vial at -20° C prior to opening. Aliquot contents and freeze at -20° C or below for extended storage. Avoid cycles of freezing and thawing. Centrifuge product if not completely clear after standing at room temperature. This product is stable for several weeks at 4° C as an undiluted liquid. Dilute only prior to immediate use.
Expiration date is one (1) year from date of receipt.
Epitope tags are short peptide sequences that are easily recognized by tag-specific antibodies. Due to their small size, epitope tags do not affect the biochemical properties of the tagged protein. Most often, sequences encoding the epitope tag are included with the target DNA at the time of cloning to produce fusion proteins containing the epitope tag sequence. This allows Anti epitope tag antibodies to serve as universal detection reagents for any tag-containing protein produced by recombinant means. This means that anti-epitope tag antibodies are a useful alternative to generating specific antibodies to identify, immunoprecipitate or immunoaffinity purify a recombinant protein. The anti-epitope tag antibody is usually functional in a variety of antibody-dependent experimental procedures.
Morales AE et al. (2024). Wilms' tumor 1 (WT1) antigen is overexpressed in Kaposi Sarcoma and is regulated by KSHV vFLIP. PLoS Pathog.
Applications
WB, IB, PCA
Tong Y et al. (2024). Mechano-activated connexin hemichannels and glutathione transport protect lens fiber cells against oxidative insults. Redox Biol.
Applications
WB, IB, PCA
Geng S et al. (2023). A conserved RWP-RK transcription factor VSR1 controls gametic differentiation in volvocine algae. Proc Natl Acad Sci U S A.
Applications
WB, IB, PCA
Acosta FM et al. (2023). Microinjection of Recombinant RCAS(A) Retrovirus into Embryonic Chicken Lens. J Vis Exp.
Applications
IF, Confocal Microscopy
Chen H et al. (2023). Probing Oxidant Effects on Superoxide Dismutase 1 Oligomeric States in Live Cells Using Single-Molecule Fluorescence Anisotropy. Chem Biomed Imaging.
Applications
WB, IB, PCA
Li Z et al. (2023). The second extracellular domain of connexin 50 is important for in cell adhesion, lens differentiation, and adhesion molecule expression. J Biol Chem.
Applications
WB, IB, PCA
Fujii S et al. (2023). Redox states in the endoplasmic reticulum directly regulate the activity of calcium channel, inositol 1,4,5-trisphosphate receptors. Proc Natl Acad Sci U S A.
Applications
WB, IB, PCA
Herfurth M et al. (2023). A miniTurbo-based proximity labeling protocol to identify conditional protein interactomes in vivo in Myxococcus xanthus. STAR Protoc.
Applications
WB, IB, PCA
Uegaki K et al. (2023). The oxidative folding of nascent polypeptides provides electrons for reductive reactions in the ER. Cell Rep.
Applications
WB, IB, PCA
Häusl, AS et al. (2022). Mediobasal hypothalamic FKBP51 acts as a molecular switch linking autophagy to whole-body metabolism. Science Advances
Applications
IP, Co-IP
Hayashi T et al. (2022). Ubiquitin-dependent rapid degradation conceals a cell-protective function of cytoplasmic SIRT3 against oxidative stress. J Biochem.
Applications
WB, IB, PCA
Fusi L et al. (2022). Interaction of transcription factor FoxO3 with histone acetyltransferase complex subunit TRRAP Modulates Gene Expression and Apoptosis. J Biol Chem.
Applications
WB, IB, PCA
Nabar NR et al. (2022). LRRK2 is required for CD38-mediated NAADP-Ca2+ signaling and the downstream activation of TFEB (transcription factor EB) in immune cells. Autophagy.
Applications
WB, IB, PCA
Montes-Bravo N et al. (2022). Role of the Spore Coat Proteins CotA and CotB, and the Spore Surface Protein CDIF630_02480, on the Surface Distribution of Exosporium Proteins in Clostridioides difficile 630 Spores. Microorganisms.
Applications
IF, Confocal Microscopy
Baloh M et al. (2022). Imaging Clostridioides difficile Spore Germination and Germination Proteins. J Bateriol.
Applications
WB, IB, PCA
Wang Y et al. (2022). Molecular mechanism of RIPK1 and caspase-8 in homeostatic type I interferon production and regulation. Cell Rep.
Applications
WB, IB, PCA
Carr HS et al. (2021). The PDZ domain protein SYNJ2BP regulates GRK-dependent Sst2A phosphorylation and downstream MAPK signaling. Endocrinology.
Applications
IHC, ICC, Histology; WB, IB, PCA
Schnitzler L et al. (2021). Lensless digital holographic microscopy as an efficient method to monitor enzymatic plastic degradation. Mar Pollut Bull.
Applications
Undefined
Chang Y et al. (2021). Analysis of the TORC1 interactome reveals a spatially distinct function of TORC1 in mRNP complexes. J Cell Biol.
Applications
Undefined
De Giorgi M et al. (2021). Targeting the Apoa1 locus for liver-directed gene therapy. Mol Ther Methods Clin Dev.
Applications
IHC, ICC, Histology; WB, IB, PCA
Li Z et al. (2021). Development of a potent embryonic chick lens model for studying congenital cataracts in vivo. Commun Biol.
Applications
WB, IB, PCA
Martinelli S et al. (2021). Stress-primed secretory autophagy promotes extracellular BDNF maturation by enhancing MMP9 secretion. Nat Commun.
Applications
WB, IB, PCA
Haines A et al. (2021). Cross Talk between ARF1 and RhoA Coordinates the Formation of Cytoskeletal Scaffolds during Chlamydia Infection. mBio.
Applications
WB, IB, PCA
Herrera-Cruz MS et al. (2021). Rab32 uses its effector reticulon 3L to trigger autophagic degradation of mitochondria-associated membrane (MAM) proteins. Biol Direct.
Applications
WB, IB, PCA
Sadek J, Wuo MG, Rooklin D, et al. (2020). Modulation of virus-induced NF-κB signaling by NEMO coiled coil mimics. Nat Commun.
Applications
IP, Co-IP
Lindner F et al. (2020). LITESEC-T3SS-Light-controlled protein delivery into eukaryotic cells with high spatial and temporal resolution. Nat Commun.
Applications
WB, IB, PCA
Treuner-Lange A et al. (2020). PilY1 and minor pilins form a complex priming the type IVa pilus in Myxococcus xanthus. Nat Commun.
Applications
WB, IB, PCA
Chang CW et al. (2020). Pathogenic mutations reveal a role of RECQ4 in mitochondrial RNA: DNA hybrid formation and resolution. Sci Rep.
Applications
IP, Co-IP; WB, IB, PCA
Liu J et al. (2020). Mechanosensitive collaboration between integrins and connexins allows nutrient and antioxidant transport into the lens. J Cell Biol.
Applications
Undefined
Skotnicka, D et al. (2020). CdbA is a DNA-binding protein and c-di-GMP receptor important for nucleoid organization and segregation in Myxococcus xanthus. Nature Communications
Applications
WB, IB, PCA
Terra LF et al. (2019). Heat shock protein B1 is a key mediator of prolactin-induced beta-cell cytoprotection against oxidative stress. Free Radic Biol Med.
Applications
WB, IB, PCA
Olsen C et al. (2019). Regulation of somatostatin receptor 2 trafficking by C-tail motifs and the retromer. Endocrinology.
Applications
IF, Confocal Microscopy; WB, IB, PCA; Multiplex Assay
Zannas AS et al. (2019). Epigenetic derepression of FKBP5 by aging and stress contributes to NF-ĸB-driven inflammation and cardiovascular risk. Proc Natl Acad Sci USA
Applications
WB, IB, PCA
Duan, G et al. (2019). Robust Antibacterial Activity of Tungsten Oxide (WO3-x) Nanodots. Chemical Research in Toxicology
Applications
Undefined
Lucarelli et al. (2018). Resolving the Combinatorial Complexity of Smad Protein Complex Formation and Its Link to Gene Expression. Cell Systems
Applications
IP, Co-IP
Geng et al. (2018). Evolutionary divergence of the sex-determining gene MID uncoupled from the transition to anisogamy in volvocine algae. Development
Applications
WB, IB, PCA
Shimo et al. (2018). Construction of a tri-chromatic reporter cell line for the rapid and simple screening of splice-switching oligonucleotides targeting DMD exon 51 using high content screening. PLOS One
Applications
WB, IB, PCA
Yue et al. (2018). SARS-Coronavirus Open Reading Frame-3a drives multimodal necrotic cell death. Cell Death & Disease
Applications
WB, IB, PCA
Smith et al. (2017). Protease-activated receptor-4 and P2Y12 Dimerize, Co-Internalize and Activate Akt Signaling via Endosomal Recruitment of β-arrestin. Journal of Biological Chemistry
Applications
IF, Confocal Microscopy; IP, Co-IP; WB, IB, PCA
Hu et al. (2017). Connexin 50 Functions as an Adhesive Molecule and Promotes Lens Cell Differentiation. Scientific Reports
Applications
WB, IB, PCA
Sleven H et al. (2017). De novo mutations in EBF3 cause a neurodevelopmental syndrome. Am J Hum Genet.
Applications
WB, IB, PCA
Grimsey et al. (2016). Recycling and Endosomal Sorting of Protease-activated Receptor-1 Is Distinctly Regulated by Rab11A and Rab11B Proteins. Journal of Biological Chemistry
Applications
E, EIA
Wang et al. (2016). S6K-STING interaction regulates cytosolic DNA-mediated activation of the transcription factor IRF3. Nature Immunology
Applications
WB, IB, PCA
Smith et al. (2016). Protease-activated Receptor-4 Signaling and Trafficking Is Regulated by the Clathrin Adaptor Protein Complex-2 Independent of β-Arrestins. Journal of Biological Chemistry
Applications
IF, Confocal Microscopy
Gassen NC et al. (2015). FKBP51 inhibits GSK3β and augments the effects of distinct psychotropic medications. Mol Psychiatry.
Applications
IP, Co-IP; WB, IB, PCA
Dores MR et al. (2015). GPCR sorting at multivesicular endosomes. Methods Cell Biol.
Applications
IF, Confocal Microscopy
Gassen NC et al. (2015). Chaperoning epigenetics: FKBP51 decreases the activity of DNMT1 and mediates epigenetic effects of the antidepressant paroxetine. Sci Signal.
Applications
WB, IB, PCA
Ortiz-Sandoval CG. Et al. (2014). Interaction with the effector dynamin-related protein 1 (Drp1) is an ancient function of Rab32 subfamily proteins. Cell Logist.
Applications
IP, Co-IP
Sinha S et al. (2014). Essential role of the chaperonin CCT in rod outer segment biogenesis. Invest Opthalmol. Vis Sci.
Applications
WB, IB, PCA
Liggett J et al. (2014). A novel COX-independent mechanism of sulindac sulfide involves cleavage of epithelial cell adhesion molecule protein. Exp Cell Res.
Applications
IF, Confocal Microscopy; Multiplex Assay
Dege C et al. (2014). Mi-2/NuRD chromatin remodeling complexes regulate B and T-lymphocyte development and function. Immunol Rev.
Applications
WB, IB, PCA
Gassen NC et al. (2014). Association of FKBP51 with priming of autophagy pathways and mediation of antidepressant treatment response: evidence in cells, mice, and humans. PLoS Med.
Applications
WB, IB, PCA
Gao X et al. (2013). Splice isoforms of phosducin-like protein control the expression of heterotrimeric G proteins. J Biol Chem.
Applications
WB, IB, PCA
Hara H et al. (2013). Phosphorylation of the adaptor ASC acts as a molecular switch that controls the formation of speck-like aggregates and inflammasome activity. Nat Immunol.
Applications
WB, IB, PCA
Badeaux AI et al. (2012). Loss of the methyl lysine effector protein PHF20 impacts the expression of genes regulated by the lysine acetyltransferase MOF. Biol Chem.
Applications
WB, IB, PCA
Raghavan B et al. (2012). Metal allergens nickel and cobalt facilitate TLR4 homodimerization independently of MD2. EMBO Rep.
Applications
WB, IB, PCA
Petersen B et al. (2011). Transgenic expression of human heme oxygenase‐1 in pigs confers resistance against xenograft rejection during ex vivo perfusion of porcine kidneys. Xenotransplantation.
Applications
WB, IB, PCA
Albus CA et al. (2010). Y3IP1, a nucleus-encoded thylakoid protein, cooperates with the plastid-encoded Ycf3 protein in photosystem I assembly of tobacco and Arabidopsis. Plant Cell.
Applications
WB, IB, PCA
This product is for research use only and is not intended for therapeutic or diagnostic applications. Please contact a technical service representative for more information. All products of animal origin manufactured by Rockland Immunochemicals are derived from starting materials of North American origin. Collection was performed in United States Department of Agriculture (USDA) inspected facilities and all materials have been inspected and certified to be free of disease and suitable for exportation. All properties listed are typical characteristics and are not specifications. All suggestions and data are offered in good faith but without guarantee as conditions and methods of use of our products are beyond our control. All claims must be made within 30 days following the date of delivery. The prospective user must determine the suitability of our materials before adopting them on a commercial scale. Suggested uses of our products are not recommendations to use our products in violation of any patent or as a license under any patent of Rockland Immunochemicals, Inc. If you require a commercial license to use this material and do not have one, then return this material, unopened to: Rockland Inc., P.O. BOX 5199, Limerick, Pennsylvania, USA.