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|12591S||400 µl (40 immunoprecipitations)|
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α-Parvin (D7F9) XP® Rabbit mAb (Sepharose® Bead Conjugate) #12591
Immunoprecipitation of α-Parvin from HeLa cell extracts, using Rabbit (DA1E) mAb IgG XP® Isotype Control (Sepharose® Bead Conjugate) #3423 (Lane 1) or α-Parvin (D7F9) XP® Rabbit mAb (Sepharose® Bead Conjugate) (Lane 2). Lane 3 is 10% input. Western blot analysis was performed using α-Parvin (D7F9) XP® Rabbit mAb #8190 and Mouse Anti-rabbit IgG (Conformation Specific) (L27A9) mAb (HRP Conjugate) #5127.Learn more about how we get our images
Gallery: α-Parvin (D7F9) XP® Rabbit mAb (Sepharose® Bead Conjugate) #12591
Immunoprecipitation for Analysis by Western Blotting
This protocol is intended for immunoprecipitation of native proteins for analysis by western immunoblot or kinase activity.
A. Solutions and Reagents
NOTE: Prepare solutions with reverse osmosis deionized (RODI) or equivalently purified water.
- 20X Phosphate Buffered Saline (PBS): (#9808).
10X Cell Lysis Buffer: (#9803) 20 mM Tris (pH 7.5), 150 mM NaCl, 1 mM EDTA, 1 mM EGTA, 1% Triton X-100, 2.5 mM Sodium pyrophosphate, 1 mM β-glycerophosphate, 1 mM Na3VO4, 1 μg/ml Leupeptin
NOTE: CST recommends adding 1 mM PMSF (#8553) before use*.
- 3X SDS Sample Buffer: (#7722) 187.5 mM Tris-HCl (pH 6.8 at 25°C), 6% w/v SDS, 30% glycerol, 150 mM DTT, 0.03% w/v bromophenol blue
- 10X Kinase Buffer (for kinase assays): (#9802) To Prepare 1 ml of 1X kinase buffer, add 100 µl 10X kinase buffer to 900 µl dH2O, mix.
- ATP (10 mM) (for kinase assays): (#9804) To prepare 0.5 ml of ATP (200 µM), add 10 µl ATP (10 mM) to 490 µl 1X kinase buffer.
B. Preparing Cell Lysates
- Aspirate media. Treat cells by adding fresh media containing regulator for desired time.
- To harvest cells under nondenaturing conditions, remove media and rinse cells once with ice-cold PBS.
- Remove PBS and add 0.5 ml 1X ice-cold cell lysis buffer to each plate (10 cm) and incubate the plates on ice for 5 minutes.
- Scrape cells off the plates and transfer to microcentrifuge tubes. Keep on ice.
- Sonicate samples on ice three times for 5 seconds each.
- Microcentrifuge for 10 minutes at 4°C, 14,000 x g, and transfer the supernatant to a new tube. If necessary, lysate can be stored at –80°C.
- Take 200 μl cell lysate and add 10 μl of the immobilized antibody, incubate with rotation overnight at 4°C.
- Microcentrifuge for 30 seconds at 4°C. Wash pellet five times with 500 μl of 1X cell lysis buffer. Keep on ice during washes.
- Proceed to sample analysis by western blotting or kinase activity (section D).
D. Sample Analysis
Proceed to one of the following specific set of steps.
For Analysis by Western Immunoblotting
- Resuspend the pellet with 20 µl 3X SDS sample buffer. Vortex, then microcentrifuge for 30 sec at 14,000 x g.
- Heat the sample to 95–100°C for 2-5 min and microcentrifuge for 1 min at 14,000 x g.
- Load the sample (15–30 µl) on a 4–20% gel for SDS-PAGE.
- Analyze sample by western blot (see Western Immunoblotting Protocol).
NOTE: To minimize masking caused by denatured IgG heavy chains (~50 kDa), we recommend using Mouse Anti-Rabbit IgG (Light-Chain Specific) (L57A3) mAb (#3677) or Mouse Anti-Rabbit IgG (Conformation Specific) (L27A9) mAb (#3678) (or HRP conjugate #5127). To minimize masking caused by denatured IgG light chains (~25 kDa), we recommend using Mouse Anti-Rabbit IgG (Conformation Specific) (L27A9) mAb (#3678) (or HRP conjugate #5127).
For Analysis by Kinase Assay
- Wash pellet twice with 500 µl 1X kinase buffer. Keep on ice.
- Suspend pellet in 40 µl 1X kinase buffer supplemented with 200 µM ATP and appropriate substrate.
- Incubate for 30 min at 30°C.
- Terminate reaction with 20 µl 3X SDS sample buffer. Vortex, then microcentrifuge for 30 sec.
- Transfer supernatant containing phosphorylated substrate to another tube.
- Heat the sample to 95–100°C for 2–5 min and microcentrifuge for 1 min at 14,000 x g.
- Load the sample (15–30 µl) on SDS-PAGE (4–20%).
posted December 2007
protocol id: 27
α-Parvin (D7F9) XP® Rabbit mAb (Sepharose® Bead Conjugate) recognizes endogenous levels of total α-parvin protein.Species Reactivity: Human, Mouse, Rat, Monkey, Dog
Monoclonal antibody is produced by immunizing animals with a synthetic peptide corresponding to residues near the amino terminus of human α-parvin protein.
This Cell Signaling Technology antibody is immobilized via covalent binding of primary amino groups to N-hydroxysuccinimide (NHS)-activated Sepharose® beads. α-Parvin (D7F9) XP® Rabbit mAb (Sepharose® Bead Conjugate) is useful for the immunoprecipitation of α-Parvin. The antibody is expected to exhibit the same species cross-reactivity as the unconjugated α-Parvin (D7F9) XP® Rabbit mAb #8190.
The extracellular matrix (ECM) is a complex structure of secreted macromolecules surrounding mammalian organs and tissues. Controlled interactions between cells and the ECM are important in proliferation, migration, survival, polarity, and differentiation. Cells contact the ECM primarily through heterodimeric integral membrane proteins called integrins. Integrins connect the ECM to the cytoskeleton, and therefore the cell signaling machinery, through protein complexes called focal adhesions (1).
The ILK/PINCH/Parvin (IPP) complex is composed of three highly conserved proteins recruited to sites of ECM contact as pre-assembled structures. The IPP acts at the interface of the integrin/actin connection to regulate formation of focal adhesions and integrin signaling. All three proteins contain multiple protein binding domains allowing them to function as adaptor proteins in the formation of focal adhesions. ILK (integrin-linked kinase) also has a catalytic (protein Ser/Thr kinase) domain, and may or may not function as a kinase in vivo. Roles for IPP proteins outside of the IPP complex have been proposed, including regulation of gene expression (2,3).
The parvin family consists of 3 members, α-parvin/actopaxin, β-parvin/affixin, and γ-parvin. α-parvin and β-parvin are expressed ubiquitously, while expression of γ-parvin is restricted to hematopoietic cells (4). α-parvin binds to f-actin both directly and via interaction with the focal adhesion protein paxillin (5). α-parvin regulates cell spreading and motility through interactions with the cofilin kinase TESK1 (6), and with the GTPase activating protein CdGAP (7). Phosphorylation of α-parvin during mitosis may have a role in the regulation of actin dynamics during the cell cycle (8).
For Research Use Only. Not For Use In Diagnostic Procedures. Cell Signaling Technology® is a trademark of Cell Signaling Technology, Inc. XP® is a trademark of Cell Signaling Technology, Inc.