This is a Validated Antibody Database (VAD) review about rat Tubg2, based on 36 published articles (read how Labome selects the articles), using Tubg2 antibody in all methods. It is aimed to help Labome visitors find the most suited Tubg2 antibody. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
Tubg2 synonym: tubulin gamma-2 chain

Abcam
rabbit polyclonal
  • immunocytochemistry; mouse; 1:100; loading ...; fig 4a
Abcam Tubg2 antibody (Abcam, ab11317) was used in immunocytochemistry on mouse samples at 1:100 (fig 4a). J Cell Sci (2018) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human; 1:200; loading ...; fig 2d
  • western blot; human; 1:1000; loading ...; fig 5d
Abcam Tubg2 antibody (Abcam, ab11316) was used in immunocytochemistry on human samples at 1:200 (fig 2d) and in western blot on human samples at 1:1000 (fig 5d). Nat Commun (2017) ncbi
rabbit polyclonal
  • immunocytochemistry; human; 1:500; loading ...; fig 1a
Abcam Tubg2 antibody (Abcam, ab11317) was used in immunocytochemistry on human samples at 1:500 (fig 1a). J Cell Sci (2017) ncbi
rabbit polyclonal
  • immunocytochemistry; human; 1:500; loading ...; fig 1a
Abcam Tubg2 antibody (Abcam, ab93867) was used in immunocytochemistry on human samples at 1:500 (fig 1a). J Cell Sci (2017) ncbi
mouse monoclonal (GTU-88)
  • western blot; human; 1:1000; fig s5
In order to describe a novel irreversible DNA-damage response in antephase, Abcam Tubg2 antibody (Abcam, ab11316) was used in western blot on human samples at 1:1000 (fig s5). Nat Commun (2016) ncbi
rabbit polyclonal
  • western blot; human; 1:1000; fig 2
In order to research the modulation of beta-amyloidogenic processing of APP by affecting the sorting and accumulation of BACE1 by SEPT8, Abcam Tubg2 antibody (Abcam, ab11317) was used in western blot on human samples at 1:1000 (fig 2). J Cell Sci (2016) ncbi
rabbit polyclonal
  • immunocytochemistry; mouse; 1:2000; fig s2
Abcam Tubg2 antibody (Abcam, Ab11317) was used in immunocytochemistry on mouse samples at 1:2000 (fig s2). Nat Commun (2016) ncbi
mouse monoclonal (GTU-88)
  • western blot; mouse; fig 2
In order to elucidate modulation of gene expression in pluripotent cells by SOX2 O-GlcNAcylation altering protein-protein interactions and genomic occupancy, Abcam Tubg2 antibody (Abcam, ab11316) was used in western blot on mouse samples (fig 2). elife (2016) ncbi
rabbit polyclonal
  • immunocytochemistry; human; 1:500; loading ...; fig 5c
In order to investigate the connection between the centrosome and actin filaments, Abcam Tubg2 antibody (abcam, ab11317) was used in immunocytochemistry on human samples at 1:500 (fig 5c). Nat Cell Biol (2016) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human; fig s9
Abcam Tubg2 antibody (Abcam, ab11316) was used in immunocytochemistry on human samples (fig s9). Oncotarget (2015) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human; 1:250; fig 3f
Abcam Tubg2 antibody (Abcam, GTU-88) was used in immunocytochemistry on human samples at 1:250 (fig 3f). Autophagy (2015) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human; 1:250; fig 3f
Abcam Tubg2 antibody (Abcam, GTU-88) was used in immunocytochemistry on human samples at 1:250 (fig 3f). J Cell Biol (2015) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human; 1:5000; fig 7
Abcam Tubg2 antibody (AbCam, ab11316) was used in immunocytochemistry on human samples at 1:5000 (fig 7). Nat Commun (2015) ncbi
mouse monoclonal (GTU-88)
  • western blot; human; fig 7
In order to report the importance of DYNC2LI1 in dynein-2 complex stability, cilium function, Hedgehog regulation and skeletogenesis, Abcam Tubg2 antibody (Abcam, ab11316) was used in western blot on human samples (fig 7). Nat Commun (2015) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; mouse; 1:500; fig s7a,b
In order to use Ift27 null mice to study the function of Ift27 in hair follicle morphogenesis, Abcam Tubg2 antibody (Abcam, ab11316) was used in immunocytochemistry on mouse samples at 1:500 (fig s7a,b). Development (2015) ncbi
mouse monoclonal (GTU-88)
  • western blot; human; 1:10,000; fig 2
Abcam Tubg2 antibody (Abcam, ab11316) was used in western blot on human samples at 1:10,000 (fig 2). Mol Biol Cell (2015) ncbi
mouse monoclonal (GTU-88)
  • western blot; mouse; 1:5000; fig 6
Abcam Tubg2 antibody (Abcam, ab11316) was used in western blot on mouse samples at 1:5000 (fig 6). Nat Commun (2014) ncbi
mouse monoclonal (GTU-88)
  • western blot; human; fig 9
  • immunohistochemistry - frozen section; mouse; fig 3
In order to study regulation of basal body positioning and docking in mono- and multicilliated cells by Flattop, Abcam Tubg2 antibody (Abcam, ab11316) was used in western blot on human samples (fig 9) and in immunohistochemistry - frozen section on mouse samples (fig 3). elife (2014) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human
Abcam Tubg2 antibody (Abcam, ab11316) was used in immunocytochemistry on human samples . Stem Cell Res (2014) ncbi
rabbit polyclonal
  • immunocytochemistry; human; 1:1000; fig 2
Abcam Tubg2 antibody (Abcam, ab11317) was used in immunocytochemistry on human samples at 1:1000 (fig 2). Nat Cell Biol (2014) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human
Abcam Tubg2 antibody (Abcam, ab11316) was used in immunocytochemistry on human samples . Mol Cancer Ther (2014) ncbi
mouse monoclonal (GTU-88)
  • immunocytochemistry; human
Abcam Tubg2 antibody (Abcam, ab11316) was used in immunocytochemistry on human samples . Mol Oncol (2013) ncbi
rabbit polyclonal
  • western blot; human
Abcam Tubg2 antibody (Abcam, ab11317) was used in western blot on human samples . Am J Pathol (2012) ncbi
mouse monoclonal (GTU-88)
  • immunohistochemistry; rat; 1:500
In order to study the expression of CB1 cannabinoid receptor in the ependyma of the rat spinal cord, Abcam Tubg2 antibody (Abcam, ab11316) was used in immunohistochemistry on rat samples at 1:500. J Comp Neurol (2013) ncbi
Santa Cruz Biotechnology
mouse monoclonal (TU-30)
  • western blot; human; 1:100; fig 1
Santa Cruz Biotechnology Tubg2 antibody (Santa Cruz, sc-51715) was used in western blot on human samples at 1:100 (fig 1). Oncol Lett (2016) ncbi
mouse monoclonal (TU-30)
  • immunocytochemistry; human; 1:500; fig 1s1
Santa Cruz Biotechnology Tubg2 antibody (Santa Cruz Biotechology, sc-51715) was used in immunocytochemistry on human samples at 1:500 (fig 1s1). elife (2016) ncbi
mouse monoclonal (C-11)
  • immunocytochemistry; human; fig 5
In order to examine link between calcium homeostasis and chromosome instability in hepatocytes carrying preS2-LHBS, Santa Cruz Biotechnology Tubg2 antibody (Santa Cruz, sc-17787) was used in immunocytochemistry on human samples (fig 5). Oncotarget (2016) ncbi
mouse monoclonal (C-11)
  • western blot; human; fig 4
Santa Cruz Biotechnology Tubg2 antibody (santa Cruz, sc-17787) was used in western blot on human samples (fig 4). Oncotarget (2015) ncbi
mouse monoclonal (C-11)
  • western blot; human; fig 7
Santa Cruz Biotechnology Tubg2 antibody (Santa Cruz, sc-17787) was used in western blot on human samples (fig 7). Oncotarget (2015) ncbi
mouse monoclonal (C-11)
  • flow cytometry; human
Santa Cruz Biotechnology Tubg2 antibody (Santa Cruz Biotechnology, sc-17787) was used in flow cytometry on human samples . Tumour Biol (2014) ncbi
mouse monoclonal (C-11)
  • immunocytochemistry; human; 1:1000; fig 1
In order to show that centrosome cohesion is maintained by the C-Nap1-centlein-Cep68 complex, Santa Cruz Biotechnology Tubg2 antibody (Santa Cruz Biotechnology, C-11) was used in immunocytochemistry on human samples at 1:1000 (fig 1). J Cell Sci (2014) ncbi
mouse monoclonal (TU-30)
  • immunocytochemistry; human; 1:200
In order to examine centriole behavior after DNA damage in synchronized untransformed human cells, Santa Cruz Biotechnology Tubg2 antibody (Santa, sc-51715) was used in immunocytochemistry on human samples at 1:200. J Cell Physiol (2014) ncbi
Sigma-Aldrich
rabbit polyclonal
  • immunocytochemistry; mouse; 1:500; fig 3
Sigma-Aldrich Tubg2 antibody (Sigma-Aldrich, T3320) was used in immunocytochemistry on mouse samples at 1:500 (fig 3). Nat Commun (2016) ncbi
rabbit polyclonal
  • immunocytochemistry; human; 1:500; loading ...; fig 2b
Sigma-Aldrich Tubg2 antibody (Sigma, T3320) was used in immunocytochemistry on human samples at 1:500 (fig 2b). PLoS ONE (2016) ncbi
rabbit polyclonal
  • western blot; common platanna
In order to study somite formation in Xenopus, Sigma-Aldrich Tubg2 antibody (SIGMA, T3320) was used in western blot on common platanna samples . Dev Dyn (2015) ncbi
rabbit polyclonal
  • immunocytochemistry; human; 1:500
Sigma-Aldrich Tubg2 antibody (Sigma Aldrich, T3320) was used in immunocytochemistry on human samples at 1:500. Methods Mol Biol (2016) ncbi
rabbit polyclonal
  • western blot; mouse
Sigma-Aldrich Tubg2 antibody (Sigma-Aldrich, T3320) was used in western blot on mouse samples . Mol Cell Biol (2011) ncbi
Articles Reviewed
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  2. Morris E, Kawamura E, Gillespie J, Balgi A, Kannan N, Muller W, et al. Stat3 regulates centrosome clustering in cancer cells via Stathmin/PLK1. Nat Commun. 2017;8:15289 pubmed publisher
  3. Dong C, Xu H, Zhang R, Tanaka N, Takeichi M, Meng W. CAMSAP3 accumulates in the pericentrosomal area and accompanies microtubule release from the centrosome via katanin. J Cell Sci. 2017;130:1709-1715 pubmed publisher
  4. Feringa F, Krenning L, Koch A, van den Berg J, van den Broek B, Jalink K, et al. Hypersensitivity to DNA damage in antephase as a safeguard for genome stability. Nat Commun. 2016;7:12618 pubmed publisher
  5. Gao J, Liu D, Li J, Song Q, Wang Q. Effect of STK17A on the sensitivity of ovarian cancer cells to paclitaxel and carboplatin. Oncol Lett. 2016;12:1107-1112 pubmed
  6. Fong C, Mazo G, Das T, Goodman J, Kim M, O Rourke B, et al. 53BP1 and USP28 mediate p53-dependent cell cycle arrest in response to centrosome loss and prolonged mitosis. elife. 2016;5: pubmed publisher
  7. Kurkinen K, Marttinen M, Turner L, Natunen T, Mäkinen P, Haapalinna F, et al. SEPT8 modulates ?-amyloidogenic processing of APP by affecting the sorting and accumulation of BACE1. J Cell Sci. 2016;129:2224-38 pubmed publisher
  8. Yuan X, Cao J, He X, Serra R, Qu J, Cao X, et al. Ciliary IFT80 balances canonical versus non-canonical hedgehog signalling for osteoblast differentiation. Nat Commun. 2016;7:11024 pubmed publisher
  9. Yen T, Yang A, Chiu W, Li T, Wang L, Wu Y, et al. Hepatitis B virus PreS2-mutant large surface antigen activates store-operated calcium entry and promotes chromosome instability. Oncotarget. 2016;7:23346-60 pubmed publisher
  10. Obino D, Farina F, Malbec O, Sáez P, Maurin M, Gaillard J, et al. Actin nucleation at the centrosome controls lymphocyte polarity. Nat Commun. 2016;7:10969 pubmed publisher
  11. Myers S, Peddada S, Chatterjee N, Friedrich T, Tomoda K, Krings G, et al. SOX2 O-GlcNAcylation alters its protein-protein interactions and genomic occupancy to modulate gene expression in pluripotent cells. elife. 2016;5:e10647 pubmed publisher
  12. Lopes C, Aubert S, Bourgois Rocha F, Barnat M, Rego A, Déglon N, et al. Dominant-Negative Effects of Adult-Onset Huntingtin Mutations Alter the Division of Human Embryonic Stem Cells-Derived Neural Cells. PLoS ONE. 2016;11:e0148680 pubmed publisher
  13. Farina F, Gaillard J, Guérin C, Couté Y, Sillibourne J, Blanchoin L, et al. The centrosome is an actin-organizing centre. Nat Cell Biol. 2016;18:65-75 pubmed publisher
  14. Munkley J, Oltean S, Vodák D, Wilson B, Livermore K, Zhou Y, et al. The androgen receptor controls expression of the cancer-associated sTn antigen and cell adhesion through induction of ST6GalNAc1 in prostate cancer. Oncotarget. 2015;6:34358-74 pubmed publisher
  15. Pitari M, Rossi M, Amodio N, Botta C, Morelli E, Federico C, et al. Inhibition of miR-21 restores RANKL/OPG ratio in multiple myeloma-derived bone marrow stromal cells and impairs the resorbing activity of mature osteoclasts. Oncotarget. 2015;6:27343-58 pubmed publisher
  16. Meissner C, Lorenz H, Hehn B, Lemberg M. Intramembrane protease PARL defines a negative regulator of PINK1- and PARK2/Parkin-dependent mitophagy. Autophagy. 2015;11:1484-98 pubmed publisher
  17. Moyer T, Clutario K, Lambrus B, Daggubati V, Holland A. Binding of STIL to Plk4 activates kinase activity to promote centriole assembly. J Cell Biol. 2015;209:863-78 pubmed publisher
  18. Whalley H, Porter A, Diamantopoulou Z, White G, Castañeda Saucedo E, Malliri A. Cdk1 phosphorylates the Rac activator Tiam1 to activate centrosomal Pak and promote mitotic spindle formation. Nat Commun. 2015;6:7437 pubmed publisher
  19. Taylor S, Dantas T, Durán I, Wu S, Lachman R, Nelson S, et al. Mutations in DYNC2LI1 disrupt cilia function and cause short rib polydactyly syndrome. Nat Commun. 2015;6:7092 pubmed publisher
  20. Yang N, Li L, Eguether T, Sundberg J, Pazour G, Chen J. Intraflagellar transport 27 is essential for hedgehog signaling but dispensable for ciliogenesis during hair follicle morphogenesis. Development. 2015;142:2194-202 pubmed publisher
  21. Sánchez R, Sánchez S. Paraxis is required for somite morphogenesis and differentiation in Xenopus laevis. Dev Dyn. 2015;244:973-87 pubmed publisher
  22. Morchoisne Bolhy S, Geoffroy M, Bouhlel I, Alves A, Audugé N, Baudin X, et al. Intranuclear dynamics of the Nup107-160 complex. Mol Biol Cell. 2015;26:2343-56 pubmed publisher
  23. Chiappetta G, Valentino T, Vitiello M, Pasquinelli R, Monaco M, Palma G, et al. PATZ1 acts as a tumor suppressor in thyroid cancer via targeting p53-dependent genes involved in EMT and cell migration. Oncotarget. 2015;6:5310-23 pubmed
  24. Liu C, Yu Y, Liu F, Wei X, Wrobel J, Gunawardena H, et al. A chromatin activity-based chemoproteomic approach reveals a transcriptional repressome for gene-specific silencing. Nat Commun. 2014;5:5733 pubmed publisher
  25. Vestergaard M, Awan A, Warzecha C, Christensen S, Andersen C. Immunofluorescence Microscopy and mRNA Analysis of Human Embryonic Stem Cells (hESCs) Including Primary Cilia Associated Signaling Pathways. Methods Mol Biol. 2016;1307:123-40 pubmed publisher
  26. Gegg M, Böttcher A, Burtscher I, Hasenoeder S, Van Campenhout C, Aichler M, et al. Flattop regulates basal body docking and positioning in mono- and multiciliated cells. elife. 2014;3: pubmed publisher
  27. Mannino M, Gomez Roman N, Hochegger H, Chalmers A. Differential sensitivity of Glioma stem cells to Aurora kinase A inhibitors: implications for stem cell mitosis and centrosome dynamics. Stem Cell Res. 2014;13:135-43 pubmed publisher
  28. Thoresen S, Campsteijn C, Vietri M, Schink K, Liestøl K, Andersen J, et al. ANCHR mediates Aurora-B-dependent abscission checkpoint control through retention of VPS4. Nat Cell Biol. 2014;16:550-60 pubmed publisher
  29. Dai H, Ye M, Peng M, Zhou W, Bai H, Xiao X, et al. Aptamer TY04 inhibits the growth of multiple myeloma cells via cell cycle arrest. Tumour Biol. 2014;35:7561-8 pubmed publisher
  30. Mäki Jouppila J, Laine L, Rehnberg J, Narvi E, Tiikkainen P, Hukasova E, et al. Centmitor-1, a novel acridinyl-acetohydrazide, possesses similar molecular interaction field and antimitotic cellular phenotype as rigosertib, on 01910.Na. Mol Cancer Ther. 2014;13:1054-66 pubmed publisher
  31. Fang G, Zhang D, Yin H, Zheng L, Bi X, Yuan L. Centlein mediates an interaction between C-Nap1 and Cep68 to maintain centrosome cohesion. J Cell Sci. 2014;127:1631-9 pubmed publisher
  32. Douthwright S, Sluder G. Link between DNA damage and centriole disengagement/reduplication in untransformed human cells. J Cell Physiol. 2014;229:1427-36 pubmed publisher
  33. Li L, Yang G, Ren C, Tanimoto R, Hirayama T, Wang J, et al. Glioma pathogenesis-related protein 1 induces prostate cancer cell death through Hsc70-mediated suppression of AURKA and TPX2. Mol Oncol. 2013;7:484-96 pubmed publisher
  34. Cigna N, Farrokhi Moshai E, Brayer S, Marchal Sommé J, Wemeau Stervinou L, Fabre A, et al. The hedgehog system machinery controls transforming growth factor-?-dependent myofibroblastic differentiation in humans: involvement in idiopathic pulmonary fibrosis. Am J Pathol. 2012;181:2126-37 pubmed publisher
  35. Garcia Ovejero D, Arevalo Martin A, Paniagua Torija B, Sierra Palomares Y, Molina Holgado E. A cell population that strongly expresses the CB1 cannabinoid receptor in the ependyma of the rat spinal cord. J Comp Neurol. 2013;521:233-51 pubmed publisher
  36. Li X, Isono K, Yamada D, Endo T, Endoh M, Shinga J, et al. Mammalian polycomb-like Pcl2/Mtf2 is a novel regulatory component of PRC2 that can differentially modulate polycomb activity both at the Hox gene cluster and at Cdkn2a genes. Mol Cell Biol. 2011;31:351-64 pubmed publisher