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Phospho-P38 (Thr180/Tyr182) Polyclonal Antibody

Citations(13)Uniprot : Q16539

Cat.No.:E-AB-21027
Host: Rabbit
Reactivity: H,M,R
Applications: WB,IHC-p,IF,ELISA

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Test Application

Verified Samples

Reactivity	Application
Human	WB (HepG2,HepG2,) Western Blot analysis of various cells with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:1000. Western Blot analysis of various cells with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:1000. IHC (colon,) Immunohistochemistry of paraffin-embedded Human colon tissue with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:200.
Rat	WB (kidney,) Western Blot analysis of various cells with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:1000.
Mouse	WB (lung,liver,3T3,3T3,) Western Blot analysis of various cells with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:1000. Western Blot analysis of various cells with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:1000. Western Blot analysis of various cells with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:1000. Western Blot analysis of various cells with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:1000. IF (liver,) Immunofluorescence analysis of Mouse liver tissue with Phospho-p38 (Thr180/Tyr182) Polyclonal Antibody at dilution of 1:200.

Dilution

WB 1:500-1:2000
IHC 1:100-1:300
IF 1:50-1:200
ELISA 1:5000

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Preparation of protein samples

1.Protein extraction

1)For tissue sample
a. Take the samples, wash the tissue thoroughly with pre-cooled PBS (0.01 M, pH=7.4)(Cat# E-BC-R187) to remove the surface blood and internal debris.
b. Weigh and smash the tissue, add an appropriate ratio of RIPA Lysis Buffer (Cat# E-BC-R327)(add 10 μL PMSF and 10 μL Na₃VO₄ to each 1 mL RIPA Lysis) and homogenizely lyse the tissue.
It is recommended to homogenize according to the ratio of tissue weight: RIPA volume = 3:10. For example, add 1 mL RIPA Lysis Buffer to 0.3 g tissue sample, the specific volume can be adjusted according to experimental requirements.
c. Shake and lyse on the ice for 30 min after homogenization. And then sonicate the sample for 1 min (under ice water bath conditions) with 2 s’ sonication and 2 s’ intervals to make cells fully lysis and reduce the viscosity of sample.
d. Centrifuge at 12,000 rpm for 10 min at 4℃.
e. Take the supernatant and measure the protein concentration mentioned in step2.

2)For cell sample
a. Collect the cells, wash them thoroughly with pre-cooled PBS (0.01 M, pH=7.4) to remove the medium off (it is generally recommended to wash 3 times).
b. Add an appropriate ratio of RIPA Lysate Buffer (10 μL PMSF and 10 μL Na₃VO₄ in each 1 mL RIPA Lysis) and lyse on the ice for 30 min.
It is recommended to add 0.1 mL of RIPA Lysis Buffer to each well of a 6-well plates (the protein content in different cells may vary, and the volume of the lysate added can be appropriately adjusted).
c. Sonicate the sample for 1 min (under ice water bath conditions) with 2 s’ sonication and 2 s’ intervals to make cells fully lyse and reduce viscosity of sample.
d. Centrifuge at 12,000 rpm for 10 min at 4℃.
e. Take the supernatant and measure the protein concentration mentioned in step2.

2.Measurement of protein concentration
By the BCA method (see the Total Protein Colorimetric Assay Kit (Cat# E-BC-K318) instructions).

3.Boiling the samples
Adjust the protein concentration with PBS Buffer. Add 5 × SDS Loading Buffer (Cat# E-BC-R288) with the ratio of the protein sample: 5 × SDS Loading Buffer = 4:1 and boil the mixture for 10 min. Centrifuge at 12,000 rpm for 2 min and collect the supernatant. The denatured protein can be employed to Western Blot experiments or stored at -20℃ or -80℃.

Note: It is recommended that the total protein loading amount of test sample is about 50 μg in each well. Try to make the loading volume of each sample close to 10 μL.

Electrophoresis

1.According to the molecular weight of the target protein, prepare 0% separation gel. Add the test sample to each well, and add 5 μL of Pre-stained Protein Marker (Cat# E-BC-R273)to a reserved well in order to verify the target molecular weight and the extent of membrane transfer. Add Electrophoresis Buffer ( Cat# E-BC-R331) and start electrophoresis.

2.Electrophoresis at 80v when the samples are in stacking gel, then convert to 120v when the blue flow into the separating gel. Electrophoresis time is about 2-3 h till bromophenol blue reaches the bottom of the gel.

Transfer Membrane

1.Choose the PVDF Membrane (Cat# E-BC-R266) with a pore size of μm according to the molecular weight of the target protein. Soak the PVDF Membrane in methanol for 1 min to activate it, and then soak the PVDF Membrane in the Transmembrane Buffer (Cat# E-BC-R333), the filter paper and fiber mat must be soaked in the Transmembrane Buffer for use too.

2.Follow manufacture instructions of Transfer System for wet, semi-dry, or dry transfer.

Incubation of antibodies

1.Soak the PVDF Membrane with TBST Buffer (Cat# E-BC-R335) containing 5% Skim Milk Powder as blocking buffer and block the membrane at room temperature for .

2.According to the recommended primary antibody dilution ratio, use the TBST Buffer containing 5% Skim Milk Powder to dilute the p38 (phospho Thr180/Tyr182) Antibody at , soak the PVDF Membrane in the primary antibody working solution, incubate overnight at 4 ℃, and gently shake.

3.Wash the PVDF Membrane with TBST Buffer for .

4.According to the recommended secondary antibody dilution ratio, use a TBST Buffer solution containing 2% Skim Milk Powder to dilute Goat Anti-Rabbit IgG (H+L) (peroxidase/HRP conjugated) (Cat# E-AB-1003) at . Incubate at room temperature for 1 h on a shaker.

5.Wash the PVDF Membrane with TBST Buffer for .

Detection

1.Mix A and B in the Excellent Chemiluminescent Substrate Detection kit (Cat# E-BC-R347) at the ratio of 1:1 as working solution.

2.Take out the PVDF Membrane from TBST Buffer and absorb the liquid with the filter paper. Pave the PVDF Membrane on the detection machine, add ECL working solution continuously on the PVDF Membrane, discharge the bubble and detect the result.

3.Adjust the contrast and the exposure time to get the best image.

Provided product(E-IR-R304A E-IR-R304B)

Product	Catalog No
RIPA Lysis Buffer (with PMSF and Na₃VO₄)	E-BC-R327
Total Protein Colorimetric Assay Kit (BCA method)	E-BC-K318
Excellent Chemiluminescent Substrate Detection Kit	E-BC-R347
Pre-stained Protein Marker (10-180 kDa)	E-BC-R273
Goat Anti-Rabbit IgG(H+L)-HRP	E-AB-1003
Skim Milk Powder	E-BC-R337
PBS Buffer, pH7.4 (10 ×)	E-BC-R187
5 × SDS Loading Buffer	E-BC-R288
Electrophoresis Buffer (10 ×)	E-BC-R331
Transmembrane Buffer (10 ×)	E-BC-R333
TBST Buffer (10 ×)	E-BC-R335
PVDF Membrane (0.45 μm, 8.5 × 6 cm)	E-BC-R266
PVDF Membrane (0.22 μm, 8.5 × 6 cm)	E-BC-R329

Appendix

Table 1. Preparation of separating gel

Table 2. Preparation of stacking gel

Table 3. Comparison of protein separation linear range

Product Details

Clonality	Polyclonal
Isotype	IgG
Concentration	1 mg/mL
Storage	Store at -20℃. Avoid freeze / thaw cycles.
Buffer	PBS with 0.02% sodium azide, 0.5% protective protein and 50% glycerol, pH7.4
Purification Method	Affinity purification
Research Areas	Cancer, Immunology, Signal Transduction
Conjugation	Unconjugated

Immunogen Details

Immunogen	Synthesized peptide derived from human p38 around the phosphorylation site of Thr180/Tyr182
Abbre	p38 (phospho Thr180/Tyr182)
Synonyms	CSAID Binding Protein 1,CSAID binding protein,CSAID-binding protein,Csaids binding protein,CSBP 1,CSBP 2,CSBP,CSBP1,CSBP2,CSPB1,Cytokine suppressive anti-inflammatory drug-binding protein,EXIP,MAP kinase 14,MAP kinase MXI2,MAP kinase p38 alpha,MAPK 14,MAPK14,MAX interacting protein 2,MAX-interacting protein 2,Mitogen Activated Protein Kinase 14,Mitogen activated protein kinase p38 alpha,Mitogen-activated protein kinase 14,Mitogen-activated protein kinase p38 alpha,MK14,Mxi 2,MXI2,p38 ALPHA,p38,p38 MAP kinase,p38 MAPK,p38 mitogen activated protein kinase,p38ALPHA,p38alpha Exip,PRKM14,PRKM15,RK,SAPK2A
Swissprot	Q16539
Calculated MW	41kDa
Observed MW	38kDa The actual band is not consistent with the expectation. Western blotting is a method for detecting a certain protein in a complex sample based on the specific binding of antigen and antibody. Different proteins can be divided into bands based on different mobility rates. The mobility is affected by many factors, which may cause the observed band size to be inconsistent with the expected size. The common factors include: 1. Post-translational modifications: For example, modifications such as glycosylation, phosphorylation, methylation, and acetylation will increase the molecular weight of the protein. 2. Splicing variants: Different expression patterns of various mRNA splicing bodies may produce proteins of different sizes. 3. Post-translational cleavage: Many proteins are first synthesized into precursor proteins and then cleaved to form active forms, such as COL1A1. 4. Relative charge: the composition of amino acids (the proportion of charged amino acids and uncharged amino acids). 5. Formation of multimers: For example, in protein dimer, strong interactions between proteins can cause the bands to be larger. However, the use of reducing conditions can usually avoid the formation of multimers. If a protein in a sample has different modified forms at the same time, multiple bands may be detected on the membrane.
Cellular Localization	Cytoplasm. Nucleus.
Tissue Specificity	Brain, heart, placenta, pancreas and skeletal muscle. Expressed to a lesser extent in lung, liver and kidney.

Related Reagents

Application	Products
WB	Western Blot Detection Kit(E-IR-R304)
IHC	2-step plus Poly-HRP Anti Mouse/Rabbit IgG Detection System (with DAB solution)(E-IR-R217)

Background

MAPK14(mitogen-activated protein kinase 14) is also named as SAPK2A,p38MAPK,CSBP1,RK,p38,EXIP,Mxi2,CSBP2,PRKM14,PRKM15,CSPB1,p38ALPHA and belongs to the MAP kinase subfamily. MAPK14-signaling is a central pathway for the integration of instructive signals in dendritic cells for T(H)17 differentiation and inflammation(PMID:22231518). It plays an important role in the regulation of hematopoietic stem cellself-renewal in vitro and inhibition of MAPK14 activation with a small molecule inhibitor may represent a novel approach to promote ex vivo expansion of hematopoietic stem cell(PMID:21198398). This protein has 4 isoforms produced by alternative splicing.

Citations

JOURNAL OF NANOBIOTECHNOLOGY (2023) IF: 9.429
Long-lasting postoperative analgesia with local anesthetic-loaded hydrogels prevent tumor recurrence via enhancing CD8+T cell infiltration

DOI: 10.1186/s12951-023-01803-8

Sample: spinal dorsal horn
CELL PROLIFERATION (2022) IF: 8.7550
Mesentery AjFGF4–AjFGFR2–ERK pathway modulates intestinal regeneration via targeting cell cycle in echinoderms

DOI: 10.1111/cpr.13351
BIOMEDICINE & PHARMACOTHERAPY (2023) IF: 7.419
Targeting Nrf2 with 3 H-1,2-dithiole-3-thione to moderate OXPHOS-driven oxidative stress attenuates IL-17A-induced psoriasis

DOI: 10.1016/j.biopha.2023.114294

Sample: human keratinocyte HaCaT cell
Cancer Cell International (2022) IF: 5.722
miR-30a targets STOX2 to increase cell proliferation and metastasis in hydatidiform moles via ERK, AKT, and P38 signaling pathways

DOI: 10.1186/s12935-022-02503-3

PMID: 35246136
Sample: hydatidiform mole tissues,normal placenta,JAR cell
Journal of Cell Communication and Signaling (2022) IF: 5.908
Dehydrozingerone promotes healing of diabetic foot ulcers: a molecular insight

DOI: 10.1007/s12079-022-00703-0

PMID: 36280629
Sample: foot ulcer
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2021) IF: 5.924
LncRNA MALAT1 Facilitates Ovarian Cancer Progression through Promoting Chemoresistance and Invasiveness in the Tumor Microenvironment

DOI: 10.3390/ijms221910201

PMID: 34638541
Sample: HTB75 cell,OVCAR3 cell
Journal of Cancer (2021) IF: 4.207
SLC34A2 Up-regulation And SLC4A4 Down-regulation Correlates With Invasion, Metastasis, And The MAPK Signaling Pathway In Papillary Thyroid Carcinomas

DOI: 10.7150/jca.56730

PMID: 34405007
Sample: thyroid
Antioxidants (2019) IF: 4.52
Celastrol Inhibits Dopaminergic Neuronal Death of Parkinson’s Disease through Activating Mitophagy

DOI: 10.3390/antiox9010037

Sample: Tissue homogenate
INTERNATIONAL IMMUNOPHARMACOLOGY (2019) IF: 3.361
Celastrol ameliorates Aspergillus fumigatus keratitis via inhibiting LOX-1

DOI: 10.1016/j.intimp.2019.02.017

PMID: 30798158
Sample: Tissue homogenate,Cell lysate
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2019) IF: 3.571
Sesamin Catechol Glucuronides Exert Anti-inflammatory Effects by Suppressing Interferon β and Inducible Nitric Oxide Synthase Expression through Deconjugation in Macrophage-like J774.1 Cells

DOI: 10.1021/acs.jafc.8b07227

Sample: J774.1 cells
EXPERIMENTAL DERMATOLOGY (2019) IF: 2.868
S‐allyl cysteine inhibits TNF‐α‐induced inflammation in HaCaT keratinocytes by inhibition of NF‐ κB‐dependent gene expression via sustained ERK activation

DOI: 10.1111/exd.14041

Sample: HaCaT cells
International Journal of Ophthalmology (2020) IF: 1.33
High-mobility group box1 as an amplifier of immune response and target for treatment in Aspergillus fumigatus keratitis

DOI: 10.18240/ijo.2020.05.03

Sample: corneas,Macrophages
JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY (2020) IF: 1.992
Fermented Unpolished Black Rice (Oryza sativa L.) Inhibits Melanogenesis via ERK, p38, and AKT Phosphorylation in B16F10 Melanoma Cells

DOI: 10.4014/jmb.2003.03019

Sample: Cell sample

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