This is a Validated Antibody Database (VAD) review about puromycin, based on 26 published articles (read how Labome selects the articles), using puromycin product in experiments. It is aimed to help Labome visitors find the most suited puromycin. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
synonym: puromycin, cl 13900, p 638, puromycin dihydrochloride, puromycin hydrochloride, stylomycin

Invitrogen
Puromycin was used for plasmid transfection, in order to study the role of QIL1 as a subunit of MICOS complex in maintaining cristae junction integrity, cristae morphology, and mitochondrial function to the paper
Life Technologies Puromycin was used to perform cell selection in order to study the regulation of the Fringe proteins on Notch-ligand cis and trans interactions to specify signaling states to the paper
Life Technologies puromycin was used to perform cell selection in order to study the role of transcription factor ZEB1 in the adipogenic gene regulatory network to the paper
MilliporeSigma
Puromycin was used to treat transfected cells in order to study the role of a cascade consisting of GSK3beta, Dzip1, and Rab8 in regulating ciliogenesis after mitosis to the paper
Sigma Puromycin was used to perform cell culture in order to study the interaction between TLR and Siglec families of pattern recognition receptors and its regulation to the paper
Sigma puromycin was used to perform cell selection in order to study the mechanism by which the Par1b induces asymmetric inheritance of plasma membrane domains in proliferating hepatocytes to the paper
Sigma puromycin was used to perform cell culture in order to investigate the functional property of the MCU gene to the paper
Sigma puromycin was used to perform cell selection in order to show that innate immune response against Listeria and LPS is mediated by TNF which is controlled by iRhom2 regulation of TACE to the paper
Sigma puromycin was used in 6 ug/mL to perform cell selection in order to show that biochemical signaling networks could transmit information in noisy molecular environment to the paper
Sigma puromycin was used in 1 ug/ml to perform cell selection in order to show that acetylation of AML1-ETO fusion protein by p300 is critical for leukemogenesis to the paper
Sigma puromycin was used to perform cell culture in order to study the mechanism of E3 Ligase in iron homeostasis to the paper
Sigma Chemical Company puromycin was used to culture cells in order to study the role for imprinted CDKN1C in suppressing rhabdoid tumor and the effect of restoration of SMARCB1 and histone deacetylase inhibitors on its activitity to the paper
Sigma puromycin was used to culture select infected cells in order to prove that the catalytic activity of IKK modified with O-GlcNAc in p53-deficient cells is enhanced to the paper
Sigma puromycin was used to select stably transfected cells in order to analyze the early events that are specifically induced by the apical supply of PPM and to determine the molecular mechanisms of PPM sensing in enterocytes to the paper
Sigma puromycin was used to select the stable Du145-sh2 and sh3 transductants in order to study the role for the transmembrane interaction in KAI1/CD82-mediated suppression of cancer invasion and metastasis to the paper
Sigma-Aldrich puromycin was used to culture the cells in order to study the role of Per1 in modulating responses to TCDD in the liver to the paper
Sigma puromycin was used to perform cell culture in order to show that protein kinase PKR can induce apoptosis and restrict the growth of phenotypes of C protein-deficient measles virus to the paper
Sigma puromycin was used to select cells in order to study the role for cyclin A1 in prostate cancer invasion and metastasis and the molecular mechanisms by which cyclin A1 contributes to tumor metastasis to the paper
Sigma puromycin (1ug/ml) was used to select stable clones in order to identify p53 target genes using a genome-wide ChIP-on-chip study to the paper
Sigma puromycin (2 ug/mL) was used in cell culture in order to study the regulation and the role of NAG-1 expression in VES-treated PC-3 human prostate carcinoma cells to the paper
Nacalai Tesque
Nacalai puromycin was used to perform lentiviral transduction in order to show that RNA length could be recognized by hnRNP C tetramer to the paper
Promega
Promega puromycin was used in construction of small-interfering RNA stable cell lines in order to study the role of Cdh1/APC in tumorigenesis to the paper
InvivoGen
Invivogen puromycin was used to perform blocking or activating experiments in order to show that autophagy is essential for the immunogenicity of antineoplastic chemotherapy in mice to the paper
Developmental Studies Hybridoma BankDevelopmental Studies Hybridoma Bank puromycin product
Anti-puromycin antibody was used in order to investigate the mechanism by which G-actin tunes the integrated stress response PMY-2A4to the paper
EMD Millipore
Calbiochem puromycin was used to add to culture medium in order to show that Parp1 and ADP-ribose polymers localize on the Dnmt1 promoter and Parp1 can protect its unmethylated state to the paper
Calbiochem puromycin was used to select cells in order to study the effect of simian virus 40 large T antigen on genome integrity and DNA damage response to the paper
Articles Reviewed
  1. Guarani V, McNeill E, Paulo J, Huttlin E, Fröhlich F, Gygi S, et al. QIL1 is a novel mitochondrial protein required for MICOS complex stability and cristae morphology. elife. 2015;4: pubmed publisher
  2. Zhang B, Zhang T, Wang G, Wang G, Chi W, Jiang Q, et al. GSK3β-Dzip1-Rab8 cascade regulates ciliogenesis after mitosis. PLoS Biol. 2015;13:e1002129 pubmed publisher
  3. Chambers J, Dalton L, Clarke H, Malzer E, Dominicus C, Patel V, et al. Actin dynamics tune the integrated stress response by regulating eukaryotic initiation factor 2α dephosphorylation. elife. 2015;4: pubmed publisher
  4. Lebon L, Lee T, Sprinzak D, Jafar Nejad H, Elowitz M. Fringe proteins modulate Notch-ligand cis and trans interactions to specify signaling states. elife. 2014;3:e02950 pubmed publisher
  5. Chen G, Brown N, Wu W, Khedri Z, Yu H, Chen X, et al. Broad and direct interaction between TLR and Siglec families of pattern recognition receptors and its regulation by Neu1. elife. 2014;3:e04066 pubmed publisher
  6. Gubelmann C, Schwalie P, Raghav S, Röder E, Delessa T, Kiehlmann E, et al. Identification of the transcription factor ZEB1 as a central component of the adipogenic gene regulatory network. elife. 2014;3:e03346 pubmed publisher
  7. Slim C, Lázaro Diéguez F, Bijlard M, Toussaint M, de Bruin A, Du Q, et al. Par1b induces asymmetric inheritance of plasma membrane domains via LGN-dependent mitotic spindle orientation in proliferating hepatocytes. PLoS Biol. 2013;11:e1001739 pubmed publisher
  8. Chaudhuri D, Sancak Y, Mootha V, Clapham D. MCU encodes the pore conducting mitochondrial calcium currents. elife. 2013;2:e00704 pubmed publisher
  9. McCloskey A, Taniguchi I, Shinmyozu K, Ohno M. hnRNP C tetramer measures RNA length to classify RNA polymerase II transcripts for export. Science. 2012;335:1643-6 pubmed publisher
  10. McIlwain D, Lang P, Maretzky T, Hamada K, Ohishi K, Maney S, et al. iRhom2 regulation of TACE controls TNF-mediated protection against Listeria and responses to LPS. Science. 2012;335:229-32 pubmed publisher
  11. Michaud M, Martins I, Sukkurwala A, Adjemian S, Ma Y, Pellegatti P, et al. Autophagy-dependent anticancer immune responses induced by chemotherapeutic agents in mice. Science. 2011;334:1573-7 pubmed publisher
  12. Cheong R, Rhee A, Wang C, Nemenman I, Levchenko A. Information transduction capacity of noisy biochemical signaling networks. Science. 2011;334:354-8 pubmed publisher
  13. Wang L, Gural A, Sun X, Zhao X, Perna F, Huang G, et al. The leukemogenicity of AML1-ETO is dependent on site-specific lysine acetylation. Science. 2011;333:765-9 pubmed publisher
  14. Salahudeen A, Thompson J, Ruiz J, Ma H, Kinch L, Li Q, et al. An E3 ligase possessing an iron-responsive hemerythrin domain is a regulator of iron homeostasis. Science. 2009;326:722-6 pubmed publisher
  15. Zampieri M, Passananti C, Calabrese R, Perilli M, Corbi N, De Cave F, et al. Parp1 localizes within the Dnmt1 promoter and protects its unmethylated state by its enzymatic activity. PLoS ONE. 2009;4:e4717 pubmed publisher
  16. Algar E, Muscat A, Dagar V, Rickert C, Chow C, Biegel J, et al. Imprinted CDKN1C is a tumor suppressor in rhabdoid tumor and activated by restoration of SMARCB1 and histone deacetylase inhibitors. PLoS ONE. 2009;4:e4482 pubmed publisher
  17. Kawauchi K, Araki K, Tobiume K, Tanaka N. Loss of p53 enhances catalytic activity of IKKbeta through O-linked beta-N-acetyl glucosamine modification. Proc Natl Acad Sci U S A. 2009;106:3431-6 pubmed publisher
  18. Béaslas O, Cueille C, Delers F, Chateau D, Chambaz J, Rousset M, et al. Sensing of dietary lipids by enterocytes: a new role for SR-BI/CLA-1. PLoS ONE. 2009;4:e4278 pubmed publisher
  19. Bari R, Zhang Y, Zhang F, Wang N, Stipp C, Zheng J, et al. Transmembrane interactions are needed for KAI1/CD82-mediated suppression of cancer invasion and metastasis. Am J Pathol. 2009;174:647-60 pubmed publisher
  20. Qu X, Metz R, Porter W, Cassone V, Earnest D. Disruption of period gene expression alters the inductive effects of dioxin on the AhR signaling pathway in the mouse liver. Toxicol Appl Pharmacol. 2009;234:370-7 pubmed publisher
  21. Toth A, Devaux P, Cattaneo R, Samuel C. Protein kinase PKR mediates the apoptosis induction and growth restriction phenotypes of C protein-deficient measles virus. J Virol. 2009;83:961-8 pubmed publisher
  22. Hein J, Boichuk S, Wu J, Cheng Y, Freire R, Jat P, et al. Simian virus 40 large T antigen disrupts genome integrity and activates a DNA damage response via Bub1 binding. J Virol. 2009;83:117-27 pubmed publisher
  23. Wegiel B, Bjartell A, Tuomela J, Dizeyi N, Tinzl M, Helczynski L, et al. Multiple cellular mechanisms related to cyclin A1 in prostate cancer invasion and metastasis. J Natl Cancer Inst. 2008;100:1022-36 pubmed publisher
  24. Fujita T, Liu W, Doihara H, Wan Y. Regulation of Skp2-p27 axis by the Cdh1/anaphase-promoting complex pathway in colorectal tumorigenesis. Am J Pathol. 2008;173:217-28 pubmed publisher
  25. Smeenk L, van Heeringen S, Koeppel M, van Driel M, Bartels S, Akkers R, et al. Characterization of genome-wide p53-binding sites upon stress response. Nucleic Acids Res. 2008;36:3639-54 pubmed publisher
  26. Shim M, Eling T. Vitamin E succinate induces NAG-1 expression in a p38 kinase-dependent mechanism. Mol Cancer Ther. 2008;7:961-71 pubmed publisher