Exbio — Research products — Antibodies — Cytoskeleton and ECM — Anti-alpha-Tubulin Purified

Anti-alpha-Tubulin Purified

Regulatory status

RUO

Antigen

alpha-Tubulin

Clone

TU-01

Format

Purified

Reactivity

Mouse, Pig, Human, Turkey, Eisenia, Paramecium, Nicotiana, Yeast, Arabidopsis

Application

FC(IC), IP, WB, IHC(P), ICC

Variant

0.1 mg

11-250-C100

In stock

176.00 USD

1.0 mg

11-250-M001

In stock

528.00 USD

0.025 mg

11-250-C025

Delivery 1 week

88.00 USD

Variant

0.1 mg

11-250-C100

In stock

176.00 USD

1.0 mg

11-250-M001

In stock

528.00 USD

0.025 mg

11-250-C025

Delivery 1 week

88.00 USD

Contact distributor

Product details

Description

Images

References

SDS download

Isotype

Mouse IgG1

Specificity

The antibody TU-01 recognizes a defined epitope (aa 65-97) on N-terminal structural domain of alpha-tubulin.

Application

FC(IC), IP, WB, IHC(P), ICC

Application details

Flow cytometry: Recommended dilution: 1-4 μg/ml, intracellular staining.
Western blotting: Recommended dilution: 1-2 μg/ml, reducing conditions.

Reactivity

Mouse, Pig, Human, Turkey, Eisenia, Paramecium, Nicotiana, Yeast, Arabidopsis

Immunogen

Fraction of tubulin purified from porcine brain by two cycles of polymerization - depolymerization.

Concentration

1 mg/ml

Preparation

Purified by protein-A affinity chromatography.

Formulation

Phosphate buffered saline (PBS), pH 7.4, 15 mM sodium azide

Storage and handling

Store at 2-8°C. Do not freeze.

The product is intended For Research Use Only. Diagnostic or therapeutic applications are strictly forbidden. Products shall not be used for resale or transfer to third parties either as a stand-alone product or as a manufacture component of another product without written consent of EXBIO Praha, a.s. EXBIO Praha, a.s. will not be held responsible for patent infringement or any other violations of intellectual property rights that may occur with the use of the products. Orders for all products are accepted subject to the Term and Conditions available at www.exbio.cz. EXBIO, EXBIO Logo, and all other trademarks are property of EXBIO Praha, a.s.

Other names

TUBA

Antigen description

The microtubules are intracellular dynamic polymers made up of evolutionarily conserved polymorphic alpha/beta-tubulin heterodimers and a large number of microtubule-associated proteins (MAPs). The microtubules consist of 13 protofilaments and have an outer diameter 25 nm. Microtubules have their intrinsic polarity; highly dynamic plus ends and less dynamic minus ends. Microtubules are required for vital processes in eukaryotic cells including mitosis, meiosis, maintenance of cell shape and intracellular transport. Microtubules are also necessary for movement of cells by means of flagella and cilia. In mammalian tissue culture cells microtubules have their minus ends anchored in microtubule organizing centers (MTOCs). The GTP (guanosintriphosphate) molecule is an essential for tubulin heterodimer to associate with other heterodimers to form microtubule. In vivo, microtubule dynamics vary considerably. Microtubule polymerization is reversible and a populations of microtubules in cells are on their minus ends either growing or shortening – this phenomenon is called dynamic instability of microtubules. On a practical level, microtubules can easily be stabilized by the addition of non-hydrolysable analogues of GTP (eg. GMPPCP) or more commonly by anti-cancer drugs such as Taxol. Taxol stabilizes microtubules at room temperature for many hours. Using limited proteolysis by enzymes both tubulin subunits can be divided into N-terminal and C-terminal structural domains. The alpha-tubulin (relative molecular weight around 50 kDa) is globular protein that exists in cells as part of soluble alpha/beta-tubulin dimer or it is polymerized into microtubules. In different species it is coded by multiple tubulin genes that form tubulin classes (in human 6 genes). Expressed tubulin genes are named tubulin isotypes. Some of the tubulin isotypes are expressed ubiquitously, while some have more restricted tissue expression. Alpha-tubulin is also subject of numerous post-translational modifications. Tubulin isotypes and their posttranslational modifications are responsible for multiple tubulin charge variants - tubulin isoforms. Heterogeneity of alpha-tubulin is concentrated in C-terminal structural domain.

Entrez Gene ID 7277

UniProt ID Q71U36

Immunocytochemistry staining of 3T3 mouse embryonal fibroblast cell line using anti-alpha-tubulin (TU-01; green) and anti-Vimentin (VI-01; cat. no. 11-254-C100; red). Nucleus is stained with DAPI (blue).

Separation of HeLa cells stained using anti-alpha-Tubulin (TU-01) purified antibody (concentration in sample 3 μg/ml, GAM APC, red-filled) from HeLa cells unstained by primary antibody (GAM APC, black-dashed) in flow cytometry analysis (intracellular staining).

Immunocytochemistry staining of HeLa human cervix carcinoma cell line using anti-alpha-tubulin (TU-01; red). Nucleus is stained with DAPI (blue).

Immunocytochemistry staining of 3T3 mouse embryonal fibroblast cell line using anti-alpha-tubulin (TU-01; green). Nucleus is stained with DAPI (blue).

Immunohistochemistry staining of human heart (paraffin sections) using anti-alpha-tubulin (TU-01). Commercially tested by LifeSpan BioSciences.

Western blotting analysis of human alpha-tubulin using mouse monoclonal antibody TU-01 on lysates of various cell lines under reducing and non-reducing conditions. Nitrocellulose membrane was probed with 2 µg/ml of mouse anti-alpha-tubulin monoclonal antibody followed by IRDye800-conjugated anti-mouse secondary antibody. A specific band was detected for alpha-tubulin at approximately 54 kDa.

Use of anti-alpha-tubulin antibody TU-01 as a loading control (A) in an Western blotting experiment revealing the staining pattern of various cell lysates by a newly developed monoclonal antibody (B).

Anti-alpha-Tubulin Purified (TU-01) works in WB application under reducing conditions.

Western blotting analysis was performed on whole cell extracts (RIPA lysis buffer) of JAR, JEG3, HTr-8/SVneo, and HeLa cell lines mixed and heated (100°C, 5 min) with reducing (2-mercaptoethanol) or non-reducing SDS-loading buffer. Samples were resolved using 10% SDS-PAGE gel.

Nitrocellulose membrane blot was probed simultaneously with mouse IgG1 monoclonal antibody TU-01 (1 µg/ml) and mouse IgM monoclonal antibody VI-01 detecting vimentin. Subclass-specific secondary antibodies IRDye 800CW Goat-anti-Mouse IgG (green) and IRDye 680RD Goat-anti-Mouse IgM (red) were used for multiplex fluorescent Western blot detection.

Alpha-tubulin was detected at ~50 kDa and vimentin at ~55 kDa.

Immunoprecipitation of alpha-tubulin from HeLa and RAJI cell lysate by antibody TU-16 and its detection by antibody TU-01. IgM heavy chain (76-92 kDa) and IgM light chain (25-30 kDa) indicated. Mr of alpha tubulin is around 50 kDa. L = lysate IPr = immunoprecipitate (reducing conditions) IPn = immunoprecipitate (non-reducing conditions)

Product specific references:

Kukharskyy V, Sulimenko V, Macůrek L, Sulimenko T, Dráberová E, Dráber P: Complexes of gamma-tubulin with nonreceptor protein tyrosine kinases Src and Fyn in differentiating P19 embryonal carcinoma cells. Exp Cell Res. 2004 Aug 1;298(1):218-28.
PubMed

Smertenko A, Blume Y, Viklicky V, Opatrny Z, Draber P: Post-translational modifications and multiple tubulin isoforms in Nicotiana tabacum L. cells. Planta. 1997;201(3):349-58.
PubMed

Lukas J, Mazna P, Valenta T, Doubravska L, Pospichalova V, Vojtechova M, Fafilek B, Ivanek R, Plachy J, Novak J, Korinek V: Dazap2 modulates transcription driven by the Wnt effector TCF-4. Nucleic Acids Res. 2009 Mar 20. [Epub ahead of print]
PubMed

Smertenko A, Blume Y, Viklicky V, Opatrny Z, Draber P: Post-translational modifications and multiple tubulin isoforms in Nicotiana tabacum L. cells. Planta. 1997;201(3):349-58.
PubMed

Nováková M, Dráberová E, Schürmann W, Czihak G, Viklický V, Dráber P: gamma-Tubulin redistribution in taxol-treated mitotic cells probed by monoclonal antibodies. Cell Motil Cytoskeleton. 1996;33(1):38-51.
PubMed

Linhartova I, Draber P, Draberova E, Viklicky V: Immunological discrimination of beta-tubulin isoforms in developing mouse brain. Post-translational modification of non-class-III beta-tubulins. Biochem J. 1992 Dec 15;288 ( Pt 3):919-24.
PubMed

Draber P, Draberova E, Viklicky V: Immunostaining of human spermatozoa with tubulin domain-specific monoclonal antibodies. Recognition of a unique beta tubulin epitope in the sperm head. Histochemistry. 1991;95(5):519-24.
PubMed

Draber P, Draberova E, Linhartova I, Viklicky V: Differences in the exposure of C- and N-terminal tubulin domains in cytoplasmic microtubules detected with domain-specific monoclonal antibodies. J Cell Sci. 1989 Mar;92 ( Pt 3):519-28.
PubMed

Grimm M, Breitling F, Little M: Location of the epitope for the alpha-tubulin monoclonal antibody TU-O1. Biochim Biophys Acta. 1987 Jul 24;914(1):83-8.
PubMed

Draber P, Draberova E, Zicconi D, Sellitto C, Viklicky V, Cappuccinelli P: Heterogeneity of microtubules recognized by monoclonal antibodies to alpha-tubulin. Eur J Cell Biol. 1986 Jun;41(1):82-8.
PubMed

Viklicky V, Draber P, Hasek J, Bartek J: Production and characterization of a monoclonal antitubulin antibody. Cell Biol Int Rep. 1982 Aug;6(8):725-31.
PubMed

Pěknicová J, Pexidrová M, Kubátová A, Koubek P, Teplá O, Sulimenko T, Dráber P: Expression of beta-tubulin epitope in human sperm with pathological spermiogram. Fertil Steril. 2007 Oct;88(4 Suppl):1120-8.
PubMed