![Peptide Competition:
Extracts prepared from 3T3L1 cells left unstimulated (1) or stimulated with LIF (2-5) were resolved by SDS-PAGE on a 10% polyacrylamide gel and transferred to PVDF. Membranes were blocked with a 5% BSA-TBST buffer overnight at 4oC, then incubated with JAK1 [pYpY1022/1023] antibody for two hours at room temperature in a 3% BSA-TBST buffer, following prior incubation with: no peptide (1, 2), the non-phosphopeptide corresponding to the immunogen (3), a generic phosphotyrosine-containing peptide (4), or, the phosphopeptide immunogen (5). After washing, membranes were incubated with goat F(ab)2 anti-rabbit IgG HRP conjugate and bands were detected using the Pierce SuperSignal(TM) method.
The data show that the peptide corresponding to JAK1 [pYpY1022/1023] blocks the antibody signal, thereby demonstrating the specificity of the antibody. The data also show the induction of phosphorylation by the addition of LIF.](/media/images/0094280.jpeg)
BP7108 Tyrosine-protein kinase JAK1 (pTyr1022/1023) antibody
see related secondary antibodiessee all 16 Tyrosine-protein kinase JAK1 products
0.1 ml / US$ 515
NOVUS BIOLOGICALS
PO Box 802 Littleton, CO 80160, USA
E-Mail: novus@novus-biologicals.com
Homepage: http://www.novus-biologicals.com
PO Box 802 Littleton, CO 80160, USA
E-Mail: novus@novus-biologicals.com
Homepage: http://www.novus-biologicals.com
Quick Overview
Rabbit anti Tyrosine-protein kinase JAK1 (pTyr1022/1023)
Synonyms
JAK1, JAK-1, JAK1A, JAK1B, Janus kinase 1,
Product Description
Rabbit anti Tyrosine-protein kinase JAK1 (pTyr1022/1023) , Presentation: Aff - Purified. Product is tested for Western blot / Immunoblot ( WB )
Properties
| Applications | Western blot / Immunoblot ( WB ) |
| Reactivity | Human ( Hu ), Mouse ( Ms ) |
| Presentation | Aff - Purified |
| Host | Rabbit |
| Catalog Number | BP7108 |
| Swiss Prot. No. | P23458 |
| Quantity | 0.1 ml |
| Price | US$ 515 |
| Delivery | Worldwide |
| Manufacturer | Acris Antibodies GmbH |
| Datasheet | view  BP7108.pdf |
Datasheet Extract
| Background | Janus Kinase 1 (JAK1) is a 130 kDa tyrosine kinase involved in cytoplasmic signal transduction. Ligand binding to a variety of cell surface receptors (e.g., cytokine, growth factor, GPCRs) leads to an association of those receptors with JAK proteins, which are then activated via phosphorylation on tyrosines 1022 and 1023 in the kinase activation loop. Activated JAK proteins phosphorylate and activate STAT (signal transducers and activators of transcription) proteins, which then dimerize and translocate to the nucleus. Once in the nucleus, STAT proteins bind to DNA and modify the transcription of various genes, which can lead to various responses such as cell proliferation, cell survival and differentiation. |
| Immunogen | A chemically synthesized phosphopeptide derived from a region of human JAK1 protein that contains tyrosines 1022 and 1023. Swiss Num.: P23458 Remarks: The sequence is conserved in mouse and pig. |
| Format | State: Liquid purified Ig fraction Purification: Epitope-specific affinity chromatography: The antibody has been negatively preadsorbed using a non-phosphopeptide corresponding to the site of phosphorylation to remove antibody that is reactive with non-phosphorylated JAK1. The final product is generated by affinity chromatography using a JAK1-derived peptide that is phosphorylated at tyrosines 1022 and 1023. BufferSystem: Dulbeccos phosphate buffered saline (without Mg2+ and Ca2+), pH 7.3 (+/- 0.1), 50% glycerol, with 1.0 mg/mL BSA (IgG, protease free) as a carrier and 0.05% sodium azide as a preservative |
| Applications | Western blot (1:1000).
Positive controls used: 3T3-L1 adipocytes +/- Leukemia Inhibitory Factor (LIF). |
| Specificity | This antibody recognizes JAK1. Species: Human, mouse. Does not react with rat JAK1. |
| Storage | Can be shipped at 2-8°C. Upon arrival, store (in aliquots) at -20°C. Avoid repeated freezing and thawing.
We recommend a brief centrifugation before opening to settle vial contents. Shelf life: one year from despatch. |
| References | Fukada, T. and N.K. Tonks (2003) Identification of YB-1 as a regulator of PTP1B expression: implications for regulation of insulin and cytokine signaling.
EMBO J. 22(3):479-493. Booz, G.W., et al. (2002) Cytokine G-protein signaling crosstalk in cardiomyocytes: attenuation of Jak-STAT activation by endothelin-1. Mol. Cell. Biochem. 240(1-2):39-46. Ju, H., et al. (2000) Bradykinin activates the Janus-activated kinase/signal transducers and activators of transcription (JAK/STAT) pathway in vascular endothelial cells: localization of JAK/STAT signalling proteins in plasmalemmal caveolae. Biochem. J. 351(Pt 1):257-264. Liu, K.D., et al. (1997) Janus kinases in interleukin-2-mediated signaling: JAK1 and JAK3 are differentially regulated by tyrosine phosphorylation. Curr. Biol. 7(11):817-826. Ihle, J.N. (1996) STATs: signal transducers and activators of transcription. Cell 84(3):331-334. |
| Protocols | Western Blotting Procedure
1. Lyse approximately 10e7 cells in 0.5 mL of ice cold Cell Lysis Buffer (formulation provided below). This buffer, a modified RIPA buffer, is suitable for recovery of most proteins, including membrane receptors, cytoskeletal-associated proteins, and soluble proteins. Other cell lysis buffer formulations, such as Laemmli sample buffer and Triton-X 100 buffer, are also compatible with this procedure. Additional optimization of the cell stimulation protocol and cell lysis procedure may be required for each specific application. 2. Remove the cellular debris by centrifuging the lysates at 14,000 x g for 10 minutes. Alternatively, lysates may be ultracentrifugedat 100,000 x g for 30 minutes for greater clarification. 3. Carefully decant the clarified cell lysates into clean tubes and determine the protein concentration using a suitable method, such as the Bradford assay. Polypropylene tubes are recommended for storing cell lysates. 4. React an aliquot of the lysate with an equal volume of 2x Laemmli Sample Buffer (125 mM Tris, pH 6.8, 10% glycerol, 10% SDS, 0.006% bromophenol blue, and 130 mM dithiothreitol [DTT]) and boil the mixture for 90 seconds at 100°C. 5. Load 10-30 μg of the cell lysate into the wells of an appropriate single percentage or gradient minigel and resolve the proteins by SDS-PAGE. 6. In preparation for the Western transfer, cut a piece of PVDF membrane slightly larger than the gel. Soak the membrane in methanol for 1 minute, then rinse with ddH2O for 5 minutes. Alternatively, nitrocellulose may be used. 7. Soak the membrane, 2 pieces of Whatman paper, and Western apparatus sponges in transfer buffer (formulation provided below) for 2 minutes. 8. Assemble the gel and membrane into the sandwich apparatus. 9. Transfer the proteins at 140 mA for 60-90 minutes at room temperature. 10. Following the transfer, rinse the membrane with Tris buffered saline for 2 minutes. 11. Block the membrane with blocking buffer (formulation provided below) for one hour at room temperature or overnight at 4°C. 12. Incubate the blocked blot with primary antibody at a 1:1000 dilution in Tris buffered saline supplemented with 3% BSA and 0.1% Tween 20 overnight at 4°C or for one hour at room temperature. 13. Wash the blot with several changes of Tris buffered saline supplemented with 0.1% Tween 20. 14. Detect the antibody band using an appropriate secondary antibody, such as goat F(ab)2 anti-rabbit IgG alkaline phosphatase conjugate or goat F(ab)2 anti-rabbit IgG horseradish peroxidase conjugate in conjunction with your chemiluminescence reagents and instrumentation. Cell Lysis Buffer Formulation: 10 mM Tris, pH 7.4 100 mM NaCl 1 mM EDTA 1 mM EGTA 1 mM NaF 20 mM Na4P2O7 2 mM Na3VO4 0.1% SDS 0.5% sodium deoxycholate 1% Triton-X 100 10% glycerol 1 mM PMSF (made from a 0.3 M stock in DMSO) or 1 mM AEBSF (water soluble version of PMSF) 60 μg/mL aprotinin 10 μg/mL leupeptin 1 μg/mL pepstatin (alternatively, protease inhibitor cocktail such as Sigma Cat. # P2714 may be used) Transfer Buffer Formulation: 2.4 gm Tris base 14.2 gm glycine 200 mL methanol Q.S. to 1 liter, then add 1 mL 10% SDS. Cool to 4°C prior to use. Tris Buffered Saline Formulation: 20 mM Tris-HCl, pH 7.4 0.9% NaCl Blocking Buffer Formulation: 100 mL Tris buffered saline 5 gm BSA 0.1 mL Tween 20 Peptide Competition Experiment The specificity of a Phosphorylation Site Specific Antibody (PSSA) in each experimental system can be confirmed through peptide competition. In this technique, aliquots of antibody are pre-incubated with peptide containing the sequence of the phosphopeptide immunogen used to raise the PSSA and the corresponding non-phosphopeptide. Following preincubation with the peptide, each antibody preparation is then used as a probe in antibody-based detection methods, such as Western blotting, immunocytochemistry, flow cytometry, or ELISA. With a PSSA specific for the phosphorylated target protein, pre-incubation with an excess of peptide containing the sequence of the phosphopeptide immunogen will block all antigen binding sites, while pre-incubation with the corresponding non-phosphopeptide will not affect the antibody. In performing the Peptide Competition Experiment, it is important to note that the optimal dilutions of both antibody and peptide should be determined empirically for each specific application. The optimal dilution of antibody in these procedures is below saturating, as determined by previous experiments in your system. The optimal dilution of peptide used in these procedures will depend on the overall affinity or avidity of the antibody, as well as the quantity of the target antigen. A 50-150 fold molar excess of peptide to antibody is found to be effective for most peptide competition experiments. In the example presented below, the PSSA is used as a dilution of 1:1000 and the peptides are used at a concentration of 333 nM. The total volume of the phosphopeptide and non-phosphopeptide-pre-incubated antibody preparations is 2 mL, sufficient for probing Western blot strips, as well as for use in other antibody-based detection methods. Under these conditions, the molar excess of peptide to antibody is > / = 50. Procedure: 1. Prepare three identical test samples, such as identical PVDF or nitrocellulose strips to which the protein of interest has been transferred. The test samples should be blocked using a blocking buffer, such as Tris buffered saline supplemented with 0.1% Tween 20, and either 5% BSA or 5% non-fat dried milk. 2. Prepare 6.5 mL of working antibody stock solution (1:1000 in this example) by adding 6.5 μL of antibody stock solution to 6.5 mL of buffer containing blocking protein, such as TBS supplemented with 0.1% Tween 20, and either 3% BSA or 3% non-fat dried milk. 3. Apportion the unused PSSA into working aliquots and store at â??20°C for future use (the stock PSSA contains 50% glycerol and will not freeze at this temperature). 4. Allow the lyophilized control peptides to reach room temperature, ideally under desiccation. 5. Reconstitute each of the control peptides to a concentration of 66.7 μM with nanopure water. (i.e. for a peptide with a molecular mass of 1500, reconstitution with 1 mL water yields a solution with a concentration of 66.7 μM). 6. Apportion the unused reconstituted peptide solutions into working aliquots and store at -20°C for future use. 7. Label 3 test tubes as follows: - tube 1: water only no peptide control - tube 2: phosphopeptide - tube 3: non-phosphopeptide 8. Into each tube, pipette the following components - tube 1: 2 mL diluted PSSA solution plus 10 μL nanopure water - tube 2: 2 mL diluted PSSA solution plus 10 μL phosphopeptide - tube 3: 2 mL diluted PSSA solution plus 10 μL non-phosphopeptide 9. Incubate the three tubes for 30 minutes at room temperature with gentle rocking. During this incubation, the peptides have the chance to bind to the combining site of the antibody. 10. At the end of the incubation step, transfer the contents of each of the three tubes to clean reaction vessels containing one of the three identical test samples. For Western blotting strips: Incubate the strips with the pre-incubated antibody preparations for 1 hour at room temperature or overnight at 4°C. Wash each strip four times, five minutes each, to remove unbound antibody. Transfer each strip to a new solution containing a labeled secondary antibody [e.g., goat F(ab)2 anti-rabbit IgG alkaline phosphatase conjugate or goat F(ab)2 anti-rabbit IgG horseradish peroxidase conjugate. Remove unbound secondary antibody by thorough washing, and develop the signal using your chemiluminescent reagents and instrumentation. The signal obtained with antibody incubated with the "Water Only, No Peptide Control" (Tube 1), represents the maximum signal in the assay. This signal should be eliminated by pre-incubation with the "Phosphopeptide" (Tube 2), while pre-incubation with the "Non-Phosphopeptide" (Tube 3) should not impact the signal. If the "Phosphopeptide" only partially eliminates the signal, repeat the procedure using twice the volume of water or peptide solutions listed in Step 8. If partial competition is seen following pre-incubation with the "Non-Phosphopeptide", repeat the procedure using half the volumes of water or peptide solutions listed in Step 8. |
| Pictures | Peptide Competition:
Extracts prepared from 3T3L1 cells left unstimulated (1) or stimulated with LIF (2-5) were resolved by SDS-PAGE on a 10% polyacrylamide gel and transferred to PVDF. Membranes were blocked with a 5% BSA-TBST buffer overnight at 4oC, then incubated with JAK1 [pYpY1022/1023] antibody for two hours at room temperature in a 3% BSA-TBST buffer, following prior incubation with: no peptide (1, 2), the non-phosphopeptide corresponding to the immunogen (3), a generic phosphotyrosine-containing peptide (4), or, the phosphopeptide immunogen (5). After washing, membranes were incubated with goat F(ab)2 anti-rabbit IgG HRP conjugate and bands were detected using the Pierce SuperSignal(TM) method. The data show that the peptide corresponding to JAK1 [pYpY1022/1023] blocks the antibody signal, thereby demonstrating the specificity of the antibody. The data also show the induction of phosphorylation by the addition of LIF. |
12 Secondary Antibodies
| Catalog No. | Name / Host | Presentation | Reactivity | ||||
|---|---|---|---|---|---|---|---|
| R1364B | Rabbit IgG (H&L) | ||||||
| Goat | Biotin | 2 mg / US$ 305 | |||||
| R1364F | Rabbit IgG (H&L) | ||||||
| Goat | FITC | 2 mg / US$ 295 | |||||
| R1364T | Rabbit IgG (H&L) | ||||||
| Goat | TRITC | 2 mg / US$ 295 | |||||
| R1364TR | Rabbit IgG (H&L) | ||||||
| Goat | Texas Red | 2 mg / US$ 305 | |||||
| R1364HRP | Rabbit IgG (H&L) | ||||||
| Goat | HRP | 2 mg / US$ 305 | |||||
| R1364AP | Rabbit IgG (H&L) | ||||||
| Goat | AP | 1 mg / US$ 335 | |||||
| R1458C2 | Rabbit IgG (H&L) multi-species ads. | ||||||
| Goat | Cy2 | 1 mg / US$ 455 | |||||
| R1458C3 | Rabbit IgG (H&L) multi-species ads. | ||||||
| Goat | Cy3 | 1 mg / US$ 455 | |||||
| R1458C35 | Rabbit IgG (H&L) multi-species ads. | ||||||
| Goat | Cy3.5 | 1 mg / US$ 455 | |||||
| R1458C5 | Rabbit IgG (H&L) multi-species ads. | ||||||
| Goat | Cy5 | 1 mg / US$ 455 | |||||
| R1458C55 | Rabbit IgG (H&L) multi-species ads. | ||||||
| Goat | Cy5.5 | 1 mg / US$ 455 | |||||
| R1427R | Rabbit IgG (H&L) F(ab')2 Fragment multi-species ads. | ||||||
| Donkey | PE | 1 ml / US$ 465 | |||||
Click here to see all secondary antibodies for 'BP7108 Tyrosine-protein kinase JAK1 (pTyr1022/1023)'.