トップ > 製品検索結果一覧 > Code No. PM054 Anti-α-Tubulin pAb

Code No. PM054

Anti-α-Tubulin pAb

価格(税別)

¥25,000

在庫

10以上

(2019/08/22 00:05時点)

包装

100 µL

データ
  • Western Blotting

  • Immunoprecipitation

  • Immunocytochemistry

クローナリティー Polyclonal クローン Polyclonal
アイソタイプ
(免疫動物)
Rabbit Ig (aff.)
使用法
WB
1:1,000  
IP
2 µL/200 µL of cell extract from 2 x 106 cells  
IC
1:200  
免疫原(抗原) N-terminal α-Tubulin synthetic peptide
交差性
[Gene ID]

Human[7846], Mouse[22142], Rat[64158], Hamster[100682527], Chicken[416694], Fruit fly*(26718004/27559081/28972163)

性状 PBS/50% glycerol, pH 7.2
保存温度 -20°C 標識 Unlabeled メーカー MBL
背景 Microtubules are one of the components of the cytoskeleton, which performs essential and diverse functions within eukaryotic cells. Microtubules are composed of a heterodimer of alpha and beta tubulins. Tubulin is a GTP-binding protein, and extension and shortening of the microtubules are regulated by binding/hydrolysis of GTP.
関連製品 PM054-7 Anti-α-Tubulin pAb-HRP-DirecT
PM088 Anti-Vinculin pAb
M175-3 Anti-α-Tubulin mAb
M177-3 Anti-β-Actin mAb
使用文献
使用文献募集中!本製品を使って論文を発表されましたら是非お知らせください。

Western Blotting

  1. Geng Y et al. Contribution of the C-terminal Regions of Promyelocytic Leukemia Protein (PML) Isoforms II and V to PML Nuclear Body Formation. J Biol Chem. 287, 30729-42 (2012)(PMID:22773875)
  2. Cao JX et al. MiR-630 inhibits proliferation by targeting CDC7 kinase, but maintains the apoptotic balance by targeting multiple modulators in human lung cancer A549 cells. Cell Death Dis. 5,e1426  (2014)(PMID:25255219)
  3. Horii T et al. p53 suppresses tetraploid development in mice. Sci Rep. 5, 8907 (2015)(PMID:25752699)
  4. Xu D et al. Modification of BECN1 by ISG15 plays a crucial role in autophagy regulation by type I IFN/interferon. Autophagy 11, 617-28 (2015)(PMID:25906440)
  5. Xu D et al. Phosphorylation and activation of ubiquitin-specific protease-14 by Akt regulates the ubiquitin-proteasome system. Elife 4, e10510 (2015)(PMID:26523394)
  6. Wang H et al. Antagonistic roles of Nibbler and Hen1 in modulating piRNA 3' ends in Drosophila. Development 143, 530-9 (2016)(PMID:26718004)
  7. Li H et al. Ultra-deep sequencing of ribosome-associated poly-adenylated RNA in early Drosophila embryos reveals hundreds of conserved translated sORFs. DNA Res. 23, 571-580 (2016)(PMID:27559081)
  8. Xu D et al. USP25 regulates Wnt signaling by controlling the stability of tankyrases. Genes Dev. 31, 1024-1035 (2017)(PMID:28619731)
  9. Shibutani M et al. Arid1b Haploinsufficiency Causes Abnormal Brain Gene Expression and Autism-Related Behaviors in Mice. Int J Mol Sci. 18, E1872 (2017)(PMID:28867767)
  10. Murakami A et al. An N-terminal di-proline motif is essential for fatty acid-dependent degradation of Δ9-desaturase in Drosophila. J Biol Chem. 292, 19976-19986 (2017)(PMID:28972163)
  11. Fu W et al. A novel acridine derivative, LS-1-10 inhibits autophagic degradation and triggers apoptosis in colon cancer cells. Cell Death Dis. 8, e3086 (2017)(PMID:28981103)
  12. Zhu K et al. Necroptosis promotes cell-autonomous activation of proinflammatory cytokine gene expression. Cell Death Dis. 9, 500 (2018)(PMID:29703889)
  13. Makise M et al. The role of vimentin in the tumor marker Nup88-dependent multinucleated phenotype. BMC Cancer 18, 519 (2018)(PMID:29724197)
  14. Sakane H, Akasaki K. The Major Lysosomal Membrane Proteins LAMP-1 and LAMP-2 Participate in Differentiation of C2C12 Myoblasts. Biol Pharm Bull. 41, 1186-1193 (2018)(PMID:30068868)
  15. Ikawa K, Sugimura K. AIP1 and cofilin ensure a resistance to tissue tension and promote directional cell rearrangement. Nat Commun. 9, 3295 (2018)(PMID:30202062)
  16. Sun X et al. Distinct multilevel misregulations of Parkin and PINK1 revealed in cell and animal models of TDP-43 proteinopathy. Cell Death Dis. 9, 953 (2018)(PMID:30237395)
  17. Cao JX, Lu Y, Targeting CDC7 improves sensitivity to chemotherapy of esophageal squamous cell carcinoma. Onco Targets Ther. 12, 63-74 (2019)(PMID:30588031)
  18. Aoki T et al. Intraflagellar transport 20 promotes collective cancer cell invasion by regulating polarized organization of Golgi-associated microtubules. Cancer Sci. 110, 1306-1316 (2019)(PMID:30742741)

Immunocytochemistry

  1. Taniuchi K et al. KIF20A-mediated RNA granule transport system promotes the invasiveness of pancreatic cancer cells. Neoplasia 16, 1082-93 (2014)(PMID:25499221)
  2. Chinen T et al. The γ-tubulin-specific inhibitor gatastatin reveals temporal requirements of microtubule nucleation during the cell cycle. Nat Commun. 6, 8722 (2015)(PMID:26503935)
  3. Ma K et al. PTK2-mediated degradation of ATG3 impedes cancer cells susceptible to DNA damage treatment. Autophagy 13, 579-591 (2017)(PMID:28103122)
  4. Aoki T et al. Intraflagellar transport 20 promotes collective cancer cell invasion by regulating polarized organization of Golgi-associated microtubules. Cancer Sci. 110, 1306-1316 (2019)(PMID:30742741)
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※在庫につきましては2019年08月22日 00時05分時点における在庫数を表示してあります。
※価格の赤色表示につきましては、キャンペーン価格の表示となっております。
※このサイトからは直接注文はできません。ご注意ください。
※使用法の表記について:
WB: Western Blotting, IH: Immunohistochemistry, IC: Immunocytochemistry, IP: Immunoprecipitation,
FCM: Flow Cytometry NT: Neutralization, IF: Immunofluorescence, RIP: RNP Immunoprecipitation,
ChIP: Chromatin Immunoprecipitation, CoIP: Co-Immunoprecipitation
DB: Dot Blotting, NB: Northern Blotting, RNA FISH: RNA Fluorescence in situ hybridization
※使用法・交差性の表記について:
*: 論文で報告されております(MBLでは未確認)。詳しくはデータシートをご覧ください。
**: 導入元からの情報です(MBLでは評価中もしくは未確認)。
※保存温度の表記について: RT: 室温
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