This is a Validated Antibody Database (VAD) review about chicken TUBB1, based on 44 published articles (read how Labome selects the articles), using TUBB1 antibody in all methods. It is aimed to help Labome visitors find the most suited TUBB1 antibody. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
TUBB1 synonym: tubulin beta-6 chain; beta-tubulin class-VI; tubulin, beta 3

Invitrogen
mouse monoclonal (BT7R)
  • western blot; mouse; loading ...; fig 2a
In order to study the efffect of H2S and homocysteine on cystathionine beta synthase and cystathionine gamma lyase, Invitrogen TUBB1 antibody (Thermo Scientific, MA5-16308) was used in western blot on mouse samples (fig 2a). Sci Rep (2017) ncbi
mouse monoclonal (BT7R)
  • western blot; human; loading ...; fig 3a
In order to describe the effects of 6-Bio using a preclinical model of Parkinson disease, Invitrogen TUBB1 antibody (Thermo Scientific, MA5-16308) was used in western blot on human samples (fig 3a). Autophagy (2017) ncbi
mouse monoclonal (BT7R)
  • western blot; rat; 1:5000; loading ...; tbl 1
In order to test if white tea improves prediabetes-induced male reproductive dysfunction, Invitrogen TUBB1 antibody (Thermo Fisher, MA5-16308) was used in western blot on rat samples at 1:5000 (tbl 1). J Nutr Biochem (2016) ncbi
mouse monoclonal (BT7R)
  • western blot; human; 1:10,000; fig 1
In order to demonstrate the key role of essential amino acid transport in the control of mTORC1 and tumor growth caused by genetic disruption of the multifunctional CD98/LAT1 complex, Invitrogen TUBB1 antibody (Thermo Scientific, MA5-16308) was used in western blot on human samples at 1:10,000 (fig 1). Cancer Res (2016) ncbi
mouse monoclonal (BT7R)
  • western blot; rat; 1:1000; fig 4
In order to investigate the requirement for EIPR-1 and the EARP complex for cargo sorting to dense-core vesicles, Invitrogen TUBB1 antibody (ThermoFisher, BT7R) was used in western blot on rat samples at 1:1000 (fig 4). PLoS Genet (2016) ncbi
rabbit polyclonal
  • western blot; baker's yeast; fig 6
In order to study calcium deficiency in the secretory pathway caused by Pmr1 inactivation, Invitrogen TUBB1 antibody (ThermoFisher Scientific, PA5-16863) was used in western blot on baker's yeast samples (fig 6). PLoS ONE (2015) ncbi
mouse monoclonal (TBN06 (Tub 2.5))
In order to develop and characterize a protein delivery tool based on bacterial type III secretion, Invitrogen TUBB1 antibody (Thermo Fisher Scientific, MA5-11732) was used . J Cell Biol (2015) ncbi
rabbit polyclonal
  • western blot; mouse; fig 3
In order to describe a method to synthesize damaurone D and test its immunomodulatory activity, Invitrogen TUBB1 antibody (Thermo Scientific, PA1-16947) was used in western blot on mouse samples (fig 3). Chem Pharm Bull (Tokyo) (2015) ncbi
mouse monoclonal (BT7R)
  • western blot; rat; 1:5000; loading ...; fig 4a
In order to study the adaptive response of the retina to short-term high fructose treatment, Invitrogen TUBB1 antibody (Thermo, BT7R) was used in western blot on rat samples at 1:5000 (fig 4a). Exp Eye Res (2015) ncbi
rabbit polyclonal
  • western blot; rat; 1:10000
In order to determine if Reg3alpha improves islet engraftment, Invitrogen TUBB1 antibody (Thermo Fisher Scientific, PA1-41331) was used in western blot on rat samples at 1:10000. Mol Med (2014) ncbi
rabbit polyclonal
  • western blot; mouse
In order to determine if methylhonokiol analogs inhibit the expression of inflammatory genes in macrophages and adipocytes, Invitrogen TUBB1 antibody (Thermo Scientific, PA1-16947) was used in western blot on mouse samples . PLoS ONE (2015) ncbi
rabbit polyclonal
  • western blot; human; 1:1000
In order to study the role of neurotensin and its receptor in both colitis and inflammatory bowel disease, Invitrogen TUBB1 antibody (Thermo Fischer Scientific, PA1-41331) was used in western blot on human samples at 1:1000. Am J Pathol (2014) ncbi
rabbit polyclonal
  • western blot; mouse; 1:2000
In order to examine the developing epidermis to determine the consequences of lipid dysregulation in mouse models, Invitrogen TUBB1 antibody (Thermo, RB-9249-PO) was used in western blot on mouse samples at 1:2000. Hum Mol Genet (2015) ncbi
rabbit polyclonal
  • western blot; human
In order to study the relation between human cortical formation and impaired sonic hedgehog signaling, Invitrogen TUBB1 antibody (Thermo Scientific Pierce Antibodies, PA1-16947) was used in western blot on human samples . Cereb Cortex (2016) ncbi
rabbit polyclonal
In order to study the role of phospholipase C-related catalytically inactive protein in KIF5B-mediated insulin secretion, Invitrogen TUBB1 antibody (Thermo Fisher Scientific, RB-9249) was used . Biol Open (2014) ncbi
mouse monoclonal (BT7R)
  • western blot; mouse; 1:3000
In order to study the differential effects of a high fat diet and caloric restriction on murne hypothalamic CNTF signaling, Invitrogen TUBB1 antibody (Pierce, MA5-16308) was used in western blot on mouse samples at 1:3000. Front Neurosci (2013) ncbi
rabbit polyclonal
  • immunocytochemistry; rat; 1:500; fig 2
In order to determine the role of CK1delta and CK1epsilon activity in neurite outgrowth of lens injury stimulated retinal ganglion cells and nerve growth factor stimulated PC12 cells, Invitrogen TUBB1 antibody (Thermo Fisher, RB-9249-P0) was used in immunocytochemistry on rat samples at 1:500 (fig 2). PLoS ONE (2011) ncbi
Sigma-Aldrich
mouse monoclonal (D66)
  • western blot; great pond snail; 1:2000; fig 2
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on great pond snail samples at 1:2000 (fig 2). Sci Rep (2016) ncbi
mouse monoclonal (D66)
  • western blot; mouse; fig 1
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on mouse samples (fig 1). Sci Rep (2016) ncbi
mouse monoclonal (2-28-33)
  • western blot; mouse
In order to study regulation by pre-mRNA alternative splicing of Acrbp in the mouse by biogenesis of sperm acrosome, Sigma-Aldrich TUBB1 antibody (Sigma, 2-28-33) was used in western blot on mouse samples . Proc Natl Acad Sci U S A (2016) ncbi
mouse monoclonal (2-28-33)
  • immunocytochemistry; human; fig 4
Sigma-Aldrich TUBB1 antibody (Sigma, T5293) was used in immunocytochemistry on human samples (fig 4). J Biol Chem (2016) ncbi
mouse monoclonal (2-28-33)
  • western blot; human; fig 3
Sigma-Aldrich TUBB1 antibody (Sigma, T5293) was used in western blot on human samples (fig 3). Hum Mutat (2016) ncbi
mouse monoclonal (D66)
  • western blot; mouse; fig 1
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on mouse samples (fig 1). J Neurosci (2016) ncbi
mouse monoclonal (D66)
  • western blot; human; fig 1
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on human samples (fig 1). Cell Death Dis (2016) ncbi
mouse monoclonal (D66)
  • western blot; rat; 1:5000; fig 2
In order to elucidate how inhibition of vascular smooth muscle cell dedifferentiation through mitochondrial dynamics regulation occurs by glucagon-like peptide 1, Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on rat samples at 1:5000 (fig 2). Biochem Pharmacol (2016) ncbi
mouse monoclonal (D66)
  • western blot; rat; fig s2
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on rat samples (fig s2). Autophagy (2015) ncbi
mouse monoclonal (2-28-33)
  • immunocytochemistry; human; 1:100; fig s4d
In order to assess the definition of obligate participation in multiple hallmarks of cancer by a comprehensive functional characterization of cancer-testis antigens, Sigma-Aldrich TUBB1 antibody (Sigma, T5293) was used in immunocytochemistry on human samples at 1:100 (fig s4d). Nat Commun (2015) ncbi
mouse monoclonal (2-28-33)
  • western blot; human; fig 5
In order to discover the link between the NAA10 mutation and intellectual disability syndrome, Sigma-Aldrich TUBB1 antibody (Sigma, T5293) was used in western blot on human samples (fig 5). Sci Rep (2015) ncbi
mouse monoclonal (D66)
  • immunoprecipitation; human
Sigma-Aldrich TUBB1 antibody (Sigma-Aldrich, T0198) was used in immunoprecipitation on human samples . J Cell Sci (2015) ncbi
mouse monoclonal (2-28-33)
  • western blot; rat; fig 2
Sigma-Aldrich TUBB1 antibody (T5293, T5293) was used in western blot on rat samples (fig 2). PLoS ONE (2015) ncbi
mouse monoclonal (D66)
  • immunocytochemistry; rat; 1:1000
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in immunocytochemistry on rat samples at 1:1000. Biochim Biophys Acta (2015) ncbi
mouse monoclonal (D66)
  • western blot; rat; 1:10000
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on rat samples at 1:10000. J Cell Physiol (2016) ncbi
mouse monoclonal (2-28-33)
  • western blot; mouse; 1:1000
Sigma-Aldrich TUBB1 antibody (Sigma-Aldrich, T5293) was used in western blot on mouse samples at 1:1000. Neuroscience (2015) ncbi
mouse monoclonal (D66)
  • western blot; human
In order to study the relationship between nuclear LASP-1 and the epigenetic machinery in breast cancer, Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on human samples . Oncogene (2016) ncbi
mouse monoclonal (D66)
  • western blot; human; fig 7
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on human samples (fig 7). PLoS ONE (2015) ncbi
mouse monoclonal (D66)
  • western blot; human; fig  3
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on human samples (fig  3). Clin Exp Metastasis (2015) ncbi
mouse monoclonal (2-28-33)
  • western blot; human; 1:2000; fig 2b
Sigma-Aldrich TUBB1 antibody (sigma, T5293) was used in western blot on human samples at 1:2000 (fig 2b). Nat Commun (2015) ncbi
mouse monoclonal (2-28-33)
  • western blot; human; 1:1000; fig 1d
Sigma-Aldrich TUBB1 antibody (Sigma, T5293) was used in western blot on human samples at 1:1000 (fig 1d). Mol Biol Cell (2015) ncbi
mouse monoclonal (2-28-33)
  • immunocytochemistry; human; fig s2
In order to study GRAF1a that promotes lipid droplet clustering and growth and its enrichment at lipid droplet junctions, Sigma-Aldrich TUBB1 antibody (Sigma, 2-28-33) was used in immunocytochemistry on human samples (fig s2). J Cell Sci (2014) ncbi
mouse monoclonal (D66)
  • western blot; mouse; 1:4000
Sigma-Aldrich TUBB1 antibody (Sigma, T-0198) was used in western blot on mouse samples at 1:4000. Free Radic Biol Med (2014) ncbi
mouse monoclonal (D66)
  • immunocytochemistry; mouse
  • western blot; mouse
In order to study the role of phospholipase C-related catalytically inactive protein in KIF5B-mediated insulin secretion, Sigma-Aldrich TUBB1 antibody (Sigma-Aldrich, D66) was used in immunocytochemistry on mouse samples and in western blot on mouse samples . Biol Open (2014) ncbi
mouse monoclonal (2-28-33)
  • western blot; human
Sigma-Aldrich TUBB1 antibody (Sigma-Aldrich, 22833) was used in western blot on human samples . Oxid Med Cell Longev (2014) ncbi
mouse monoclonal (2-28-33)
  • western blot; mouse; 1:15000
In order to study the role of ASIC1 and ASIC2 channels in the defensive response to aversive stimuli, Sigma-Aldrich TUBB1 antibody (Sigma, T5293) was used in western blot on mouse samples at 1:15000. Genes Brain Behav (2014) ncbi
mouse monoclonal (D66)
  • western blot; rat
Sigma-Aldrich TUBB1 antibody (Sigma, T0198) was used in western blot on rat samples . Physiol Behav (2014) ncbi
mouse monoclonal (2-28-33)
  • western blot; mouse; 1:2000
Sigma-Aldrich TUBB1 antibody (Sigma-Aldrich, 22833) was used in western blot on mouse samples at 1:2000. Neuro Oncol (2009) ncbi
Articles Reviewed
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  2. Suresh S, Chavalmane A, Dj V, Yarreiphang H, Rai S, Paul A, et al. A novel autophagy modulator 6-Bio ameliorates SNCA/?-synuclein toxicity. Autophagy. 2017;13:1221-1234 pubmed publisher
  3. Dias T, Alves M, Rato L, Casal S, Silva B, Oliveira P. White tea intake prevents prediabetes-induced metabolic dysfunctions in testis and epididymis preserving sperm quality. J Nutr Biochem. 2016;37:83-93 pubmed publisher
  4. Getz A, Visser F, Bell E, Xu F, Flynn N, Zaidi W, et al. Two proteolytic fragments of menin coordinate the nuclear transcription and postsynaptic clustering of neurotransmitter receptors during synaptogenesis between Lymnaea neurons. Sci Rep. 2016;6:31779 pubmed publisher
  5. Li S, Qu Z, Haas M, Ngo L, Heo Y, Kang H, et al. The HSA21 gene EURL/C21ORF91 controls neurogenesis within the cerebral cortex and is implicated in the pathogenesis of Down Syndrome. Sci Rep. 2016;6:29514 pubmed publisher
  6. Kanemori Y, Koga Y, Sudo M, Kang W, Kashiwabara S, Ikawa M, et al. Biogenesis of sperm acrosome is regulated by pre-mRNA alternative splicing of Acrbp in the mouse. Proc Natl Acad Sci U S A. 2016;113:E3696-705 pubmed publisher
  7. Cormerais Y, Giuliano S, Lefloch R, Front B, Durivault J, Tambutte E, et al. Genetic Disruption of the Multifunctional CD98/LAT1 Complex Demonstrates the Key Role of Essential Amino Acid Transport in the Control of mTORC1 and Tumor Growth. Cancer Res. 2016;76:4481-92 pubmed publisher
  8. Chen X, Stauffer S, Chen Y, Dong J. Ajuba Phosphorylation by CDK1 Promotes Cell Proliferation and Tumorigenesis. J Biol Chem. 2016;291:14761-72 pubmed publisher
  9. Topalidou I, Cattin Ortolá J, Pappas A, Cooper K, Merrihew G, MacCoss M, et al. The EARP Complex and Its Interactor EIPR-1 Are Required for Cargo Sorting to Dense-Core Vesicles. PLoS Genet. 2016;12:e1006074 pubmed publisher
  10. Saunier C, Støve S, Popp B, Gerard B, Blenski M, AhMew N, et al. Expanding the Phenotype Associated with NAA10-Related N-Terminal Acetylation Deficiency. Hum Mutat. 2016;37:755-64 pubmed publisher
  11. Wahl S, Magupalli V, Dembla M, Katiyar R, Schwarz K, Köblitz L, et al. The Disease Protein Tulp1 Is Essential for Periactive Zone Endocytosis in Photoreceptor Ribbon Synapses. J Neurosci. 2016;36:2473-93 pubmed publisher
  12. Le Pen J, Maillet L, Sarosiek K, Vuillier C, Gautier F, Montessuit S, et al. Constitutive p53 heightens mitochondrial apoptotic priming and favors cell death induction by BH3 mimetic inhibitors of BCL-xL. Cell Death Dis. 2016;7:e2083 pubmed publisher
  13. Torres G, Morales P, García Miguel M, Norambuena Soto I, Cartes Saavedra B, Vidal Peña G, et al. Glucagon-like peptide-1 inhibits vascular smooth muscle cell dedifferentiation through mitochondrial dynamics regulation. Biochem Pharmacol. 2016;104:52-61 pubmed publisher
  14. Fokina A, Chechenova M, Karginov A, Ter Avanesyan M, Agaphonov M. Genetic Evidence for the Role of the Vacuole in Supplying Secretory Organelles with Ca2+ in Hansenula polymorpha. PLoS ONE. 2015;10:e0145915 pubmed publisher
  15. Wang J, Cao Y, Li Q, Yang Y, Jin M, Chen D, et al. A pivotal role of FOS-mediated BECN1/Beclin 1 upregulation in dopamine D2 and D3 receptor agonist-induced autophagy activation. Autophagy. 2015;11:2057-2073 pubmed
  16. Ittig S, Schmutz C, Kasper C, Amstutz M, Schmidt A, Sauteur L, et al. A bacterial type III secretion-based protein delivery tool for broad applications in cell biology. J Cell Biol. 2015;211:913-31 pubmed publisher
  17. Maxfield K, Taus P, Corcoran K, Wooten J, Macion J, Zhou Y, et al. Comprehensive functional characterization of cancer-testis antigens defines obligate participation in multiple hallmarks of cancer. Nat Commun. 2015;6:8840 pubmed publisher
  18. Casey J, Støve S, McGorrian C, Galvin J, Blenski M, Dunne A, et al. NAA10 mutation causing a novel intellectual disability syndrome with Long QT due to N-terminal acetyltransferase impairment. Sci Rep. 2015;5:16022 pubmed publisher
  19. Jamieson C, Lui C, Brocardo M, Martino Echarri E, Henderson B. Rac1 augments Wnt signaling by stimulating β-catenin-lymphoid enhancer factor-1 complex assembly independent of β-catenin nuclear import. J Cell Sci. 2015;128:3933-46 pubmed publisher
  20. Han Y, Wang Z, Bae E. Synthesis of the Proposed Structure of Damaurone D and Evaluation of Its Anti-inflammatory Activity. Chem Pharm Bull (Tokyo). 2015;63:907-12 pubmed publisher
  21. Simard E, Söllradl T, Maltais J, Boucher J, D Orléans Juste P, Grandbois M. Receptor for Advanced Glycation End-Products Signaling Interferes with the Vascular Smooth Muscle Cell Contractile Phenotype and Function. PLoS ONE. 2015;10:e0128881 pubmed publisher
  22. Zajkowski T, Nieznanska H, Nieznanski K. Stabilization of microtubular cytoskeleton protects neurons from toxicity of N-terminal fragment of cytosolic prion protein. Biochim Biophys Acta. 2015;1853:2228-39 pubmed publisher
  23. Tang N, Lyu D, Liu T, Chen F, Jing S, Hao T, et al. Different Effects of p52SHC1 and p52SHC3 on the Cell Cycle of Neurons and Neural Stem Cells. J Cell Physiol. 2016;231:172-80 pubmed publisher
  24. Reigada D, Nieto Díaz M, Navarro Ruiz R, Caballero López M, Del Águila A, Muñoz Galdeano T, et al. Acute administration of ucf-101 ameliorates the locomotor impairments induced by a traumatic spinal cord injury. Neuroscience. 2015;300:404-17 pubmed publisher
  25. Duvall Noelle N, Karwandyar A, Richmond A, Raman D. LASP-1: a nuclear hub for the UHRF1-DNMT1-G9a-Snail1 complex. Oncogene. 2016;35:1122-33 pubmed publisher
  26. Thierry M, Pasquis B, Buteau B, Fourgeux C, Dembele D, Leclère L, et al. Early adaptive response of the retina to a pro-diabetogenic diet: Impairment of cone response and gene expression changes in high-fructose fed rats. Exp Eye Res. 2015;135:37-46 pubmed publisher
  27. Ding Y, Xu Y, Shuai X, Shi X, Chen X, Huang W, et al. Reg3α Overexpression Protects Pancreatic Beta-Cells From Cytokine-Induced Damage and Improves Islet Transplant Outcome. Mol Med. 2014;: pubmed publisher
  28. Giehl K, Keller C, Muehlich S, Goppelt Struebe M. Actin-mediated gene expression depends on RhoA and Rac1 signaling in proximal tubular epithelial cells. PLoS ONE. 2015;10:e0121589 pubmed publisher
  29. Bi Q, Ranjan A, Fan R, Agarwal N, Welch D, Weinman S, et al. MTBP inhibits migration and metastasis of hepatocellular carcinoma. Clin Exp Metastasis. 2015;32:301-11 pubmed publisher
  30. Kim S, Ka S, Lee Y, Park B, Fei X, Jung J, et al. The new 4-O-methylhonokiol analog GS12021 inhibits inflammation and macrophage chemotaxis: role of AMP-activated protein kinase α activation. PLoS ONE. 2015;10:e0117120 pubmed publisher
  31. Zimmermann M, Aguilera F, Castellucci M, Rossato M, Costa S, Lunardi C, et al. Chromatin remodelling and autocrine TNFα are required for optimal interleukin-6 expression in activated human neutrophils. Nat Commun. 2015;6:6061 pubmed publisher
  32. Jin Z, Chung J, Mei W, Strack S, He C, Lau G, et al. Regulation of nuclear-cytoplasmic shuttling and function of Family with sequence similarity 13, member A (Fam13a), by B56-containing PP2As and Akt. Mol Biol Cell. 2015;26:1160-73 pubmed publisher
  33. Bakirtzi K, West G, Fiocchi C, Law I, Iliopoulos D, Pothoulakis C. The neurotensin-HIF-1α-VEGFα axis orchestrates hypoxia, colonic inflammation, and intestinal angiogenesis. Am J Pathol. 2014;184:3405-14 pubmed publisher
  34. Cottle D, Ursino G, Ip S, Jones L, DiTommaso T, Hacking D, et al. Fetal inhibition of inflammation improves disease phenotypes in harlequin ichthyosis. Hum Mol Genet. 2015;24:436-49 pubmed publisher
  35. Lucken Ardjomande Häsler S, Vallis Y, Jolin H, McKenzie A, McMahon H. GRAF1a is a brain-specific protein that promotes lipid droplet clustering and growth, and is enriched at lipid droplet junctions. J Cell Sci. 2014;127:4602-19 pubmed publisher
  36. Radonjić N, Memi F, Ortega J, Glidden N, Zhan H, Zecevic N. The Role of Sonic Hedgehog in the Specification of Human Cortical Progenitors In Vitro. Cereb Cortex. 2016;26:131-43 pubmed publisher
  37. Tanti G, Goswami S. SG2NA recruits DJ-1 and Akt into the mitochondria and membrane to protect cells from oxidative damage. Free Radic Biol Med. 2014;75:1-13 pubmed publisher
  38. Asano S, Nemoto T, Kitayama T, Harada K, Zhang J, Harada K, et al. Phospholipase C-related catalytically inactive protein (PRIP) controls KIF5B-mediated insulin secretion. Biol Open. 2014;3:463-74 pubmed publisher
  39. Shinmura K, Goto M, Tao H, Kato H, Suzuki R, Nakamura S, et al. Impaired 8-hydroxyguanine repair activity of MUTYH variant p.Arg109Trp found in a Japanese patient with early-onset colorectal cancer. Oxid Med Cell Longev. 2014;2014:617351 pubmed publisher
  40. Severi I, Perugini J, Mondini E, Smorlesi A, Frontini A, Cinti S, et al. Opposite effects of a high-fat diet and calorie restriction on ciliary neurotrophic factor signaling in the mouse hypothalamus. Front Neurosci. 2013;7:263 pubmed publisher
  41. Price M, Gong H, Parsons M, Kundert J, Reznikov L, Bernardinelli L, et al. Localization and behaviors in null mice suggest that ASIC1 and ASIC2 modulate responses to aversive stimuli. Genes Brain Behav. 2014;13:179-94 pubmed publisher
  42. Heydendael W, Sengupta A, Beck S, Bhatnagar S. Optogenetic examination identifies a context-specific role for orexins/hypocretins in anxiety-related behavior. Physiol Behav. 2014;130:182-90 pubmed publisher
  43. Bischof J, Müller A, Fänder M, Knippschild U, Fischer D. Neurite outgrowth of mature retinal ganglion cells and PC12 cells requires activity of CK1? and CK1?. PLoS ONE. 2011;6:e20857 pubmed publisher
  44. Li L, Dutra A, Pak E, Labrie J, Gerstein R, Pandolfi P, et al. EGFRvIII expression and PTEN loss synergistically induce chromosomal instability and glial tumors. Neuro Oncol. 2009;11:9-21 pubmed publisher