This is a Validated Antibody Database (VAD) review about GST, based on 35 published articles (read how Labome selects the articles), using GST product in experiments. It is aimed to help Labome visitors find the most suited GST. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
Santa Cruz BiotechnologySanta Cruz Biotechnology GST product
Santa Cruz anti-GST antibody (sc-138) was used in western blot to study the role for 20S proteasome in processing NF-kappaB1 p105 into p50 in pET28 vector with mouse p105 sc-138to the paper
Santa Cruz Biotechnologies anti-GST was used to perform western blot in order to study the role of the histone demethylase KDM3A in response to heat shock to the paper
Santa Cruz anti-GST was used to perform western blot in order to study the mechanism by which USP8 regulates Smo signaling in Drosophila to the paper
Santa Cruz anti-GST was used to perform western blot in order to show that Pol I transcription requires yeast Rrn7/human TAF1B for RNA polymerase I transcription to the paper
SantaCruz anti-GST was used to perform western blot and immunoprecipitation in order to show that Salmonella enterica growth was restricted by phosphorylation of autophagy receptor optineurin to the paper
Santa Cruz mouse monoclonal anti-GST antibody was used to carry out western blot analysis in order to investigate the mechanism for how inner centromere is established and how the CPC is targeted to this site to the paper
Santa Cruz Biotechnology anti-GST antibody was used to perform western blot in order to demonstrate that Pc2 is a novel SUMO-bing protein with two SUMO interaction motif (SIM), and SIM2 is required for its E3 ligase activity to the paper
Santa Cruz Biotechnology mouse anti-GST antibody was used as negative control to carry out immunoprecipitation assays in order to investigate the role of forward trafficking of connexin 43 in gap junction coupling and reducing ischemia-related cardiac arrhythmias to the paper
Santa Cruz Biotechnology anti-GST antibody was used in western blot to gain insight into the SUMOylation system encoded in the genome of C. reinhardtii, a single-cell alga and model plant cell system to the paper
Santa Cruz Biotechnology anti-GST antibody was used in western blot to study the effect of the interation between the nucleocapsid protein of severe acute respiratory syndrome coronavirus and translation elongation factor 1alpha on cell cytokinesis and proliferation to the paper
Santa Cruz Biotechnology anti-GST antibody was used in western blot to identify a novel translational control sequence that exerts repression of target mRNAs to the paper
Santa Cruz mouse monoclonal anti-GST was used to perform western blot and immunoprecipitation in order to show the mechanisms through which Hck regulates p73 function to the paper
Santa Cruz Biotech anti-GST antibody was used to perform western blot in order to study the enhancement of the substrate modification specificity caused by an extended consensus motif through SUMO to the paper
Santa Cruz Biotechnology polyclonal anti-GST antibody was used in immunocytochemistry to study the localiation and function of p125 in endoplasmic reticulum to the paper
BioLegendBioLegend GST product
Covance GST antibody was used to perform western blot in order to show the role of Wrch-1 in disruption of TJs and actin organization to the paper
AbcamAbcam GST product
Abcam anti-GST antibody was used to perform MITOMI experiments in order to study the circuit of the zebrafish segmentation clock to the paper
InvitrogenInvitrogen GST product
Thermo Scientific monoclonal anti-GST antibody was used to perform western blot in order to investigate the regulatory effect of HILDA complex on VEGF-A expression to the paper
Zymed monoclonal anti-Gst antibody was used in western blot to study the effect of the interaction between Trim11 and ubiquitin proteosome system on the function of neurogenic transcription factor Pax6 to the paper
MilliporeSigmaMilliporeSigma GST product
Sigma anti-GST antibody was used to perform western blot in order to study the role of some 65kD guanylate-binding proteins in protecting the host from bacterial infection G1160to the paper
Sigma anti-GST mAb antibody was used in western blot in order to study how Irgm1 recognizes the mycobacterial phagosome (PG) and promotes immunity G1160to the paper
Sigma-Aldrich anti-GST antibody was used to perform western blot in order to show that ATP concentration could be regulated by inositol pyrophosphates through glycolysis enhancement to the paper
Sigma rabbit anti-GST was used to perform western blot and immunoprecipitation in order to show that integrins could interact with CXCL4 and play a role in angiogenesis to the paper
GE Healthcare Life BiosciencesGE Healthcare Life Biosciences GST product
GE Healthcare anti-GST antibody was used to perform western blot in order to show that p53-dependent cell proliferation and survival could be regulated by atg7 to the paper
GE healthcare anti-GST monoclonal antibody was used to perform immunoblotting in order to study the realtion between AURKA and RHAMM to the paper
GE Healthcare monoclonal anti-GST was used to perform binding assays in order to show the structural basis of RON2 peptide interaction with AMA1 for apicomplexan parasite invasion to the paper
GE Healthcare goat anti-GST ployclonal antibody was used to perform western blot in order to show that ErbB4 expression in the CA1 area of the rodent hippocampus is absent in pyramidal neurons and is restricted to the GABAergic interneurons to the paper
GE Healthcare anti-GST was used to perform western blot in order to show the effects of G9a/KMT1C and jumonji-C type histone demethylases in histone H1 isotype 4 methylation and demethylation to the paper
GE Healthcare HRP-conjugated anti-GST antibody was used in western blot to study the effect of myopathy-linked desmin mutation on striated muscle actin filament architecture to the paper
GE Healthcare Bioscience anti GST antibody (1:1,000) was used in far western blotting in order to investigate the binding of the Streptococcus gordonii DL1 surface protein Hsa to the host cell membrane glycoproteins CD11b, CD43, and CD50 to the paper
Amersham Pharmacia goat anti-GST polyclonal antibody was used to perform western blot in order to investigate the relations between PI4P and GGA to the paper
Amersham Pharmacia rabbit polyclonal anti-GST antibody was used in human fibrosarcoma HT1080 cells and in western blot to study the role for tyrosine phosphorylation in full-scale activation of the eIF2alpha RNA-dependent protein kinase to the paper
Amersham Biosciences anti-GST antibody was used in MCF7 (human breast adenocarcinoma cells) and in western blot to study the effect of the epstein-barr virus-encoded EBNA-3 protein on transactivation function of the Aryl hydrocarbon receptor to the paper
Amersham Biosciences goat polyclonal anti-GST antibody was used in western blot to study the identification of FEZ1 which interacts with JC virus agnoprotein and microtubules to the paper
GenScript
GenScript anti-GST was used to perform western blot in order to show that EDS1 interacts with immune regulators for Arabidopsis immune response and this interaction maybe disrupted by pathogen effectors to the paper
BD BiosciencesBD Biosciences GST product
BD Biosciences polyclonal anti-GST was used to perform immunocytochemistry in order to show that the role of PI4P in plasma membrane identity is essential and independent of PI(4,5)P2 to the paper
Articles Reviewed
  1. Cheng M, Zhang Y, Cao C, Zhang W, Zhang Y, Shen Y. Specific phosphorylation of histone demethylase KDM3A determines target gene expression in response to heat shock. PLoS Biol. 2014;12:e1002026 pubmed publisher
  2. Yao P, Potdar A, Ray P, Eswarappa S, Flagg A, Willard B, et al. The HILDA complex coordinates a conditional switch in the 3'-untranslated region of the VEGFA mRNA. PLoS Biol. 2013;11:e1001635 pubmed publisher
  3. Schroter C, Ares S, Morelli L, Isakova A, Hens K, Soroldoni D, et al. Topology and dynamics of the zebrafish segmentation clock core circuit. PLoS Biol. 2012;10:e1001364 pubmed publisher
  4. Hammond G, Fischer M, Anderson K, Holdich J, Koteci A, Balla T, et al. PI4P and PI(4,5)P2 are essential but independent lipid determinants of membrane identity. Science. 2012;337:727-30 pubmed publisher
  5. Lee I, Kawai Y, Fergusson M, Rovira I, Bishop A, Motoyama N, et al. Atg7 modulates p53 activity to regulate cell cycle and survival during metabolic stress. Science. 2012;336:225-8 pubmed publisher
  6. Xia R, Jia H, Fan J, Liu Y, Jia J. USP8 promotes smoothened signaling by preventing its ubiquitination and changing its subcellular localization. PLoS Biol. 2012;10:e1001238 pubmed publisher
  7. Bhattacharjee S, Halane M, Kim S, Gassmann W. Pathogen effectors target Arabidopsis EDS1 and alter its interactions with immune regulators. Science. 2011;334:1405-8 pubmed publisher
  8. Maxwell C, Benitez J, Gómez Baldó L, Osorio A, Bonifaci N, Fernández Ramires R, et al. Interplay between BRCA1 and RHAMM regulates epithelial apicobasal polarization and may influence risk of breast cancer. PLoS Biol. 2011;9:e1001199 pubmed publisher
  9. Szijgyarto Z, Garedew A, Azevedo C, Saiardi A. Influence of inositol pyrophosphates on cellular energy dynamics. Science. 2011;334:802-5 pubmed publisher
  10. Knutson B, Hahn S. Yeast Rrn7 and human TAF1B are TFIIB-related RNA polymerase I general transcription factors. Science. 2011;333:1637-40 pubmed publisher
  11. Tonkin M, Roques M, Lamarque M, Pugniere M, Douguet D, Crawford J, et al. Host cell invasion by apicomplexan parasites: insights from the co-structure of AMA1 with a RON2 peptide. Science. 2011;333:463-7 pubmed publisher
  12. Wild P, Farhan H, McEwan D, Wagner S, Rogov V, Brady N, et al. Phosphorylation of the autophagy receptor optineurin restricts Salmonella growth. Science. 2011;333:228-33 pubmed publisher
  13. Kim B, Shenoy A, Kumar P, Das R, Tiwari S, MacMicking J. A family of IFN-?-inducible 65-kD GTPases protects against bacterial infection. Science. 2011;332:717-21 pubmed publisher
  14. Yamagishi Y, Honda T, Tanno Y, Watanabe Y. Two histone marks establish the inner centromere and chromosome bi-orientation. Science. 2010;330:239-43 pubmed publisher
  15. Yang S, Sharrocks A. The SUMO E3 ligase activity of Pc2 is coordinated through a SUMO interaction motif. Mol Cell Biol. 2010;30:2193-205 pubmed publisher
  16. Smyth J, Hong T, Gao D, Vogan J, Jensen B, Fong T, et al. Limited forward trafficking of connexin 43 reduces cell-cell coupling in stressed human and mouse myocardium. J Clin Invest. 2010;120:266-79 pubmed publisher
  17. Vullhorst D, Neddens J, Karavanova I, Tricoire L, Petralia R, McBain C, et al. Selective expression of ErbB4 in interneurons, but not pyramidal cells, of the rodent hippocampus. J Neurosci. 2009;29:12255-64 pubmed publisher
  18. Tiwari S, Choi H, Matsuzawa T, Pypaert M, MacMicking J. Targeting of the GTPase Irgm1 to the phagosomal membrane via PtdIns(3,4)P(2) and PtdIns(3,4,5)P(3) promotes immunity to mycobacteria. Nat Immunol. 2009;10:907-17 pubmed publisher
  19. Trojer P, Zhang J, Yonezawa M, Schmidt A, Zheng H, Jenuwein T, et al. Dynamic Histone H1 Isotype 4 Methylation and Demethylation by Histone Lysine Methyltransferase G9a/KMT1C and the Jumonji Domain-containing JMJD2/KDM4 Proteins. J Biol Chem. 2009;284:8395-405 pubmed publisher
  20. Brady D, Alan J, Madigan J, Fanning A, Cox A. The transforming Rho family GTPase Wrch-1 disrupts epithelial cell tight junctions and epithelial morphogenesis. Mol Cell Biol. 2009;29:1035-49 pubmed publisher
  21. Conover G, Henderson S, Gregorio C. A myopathy-linked desmin mutation perturbs striated muscle actin filament architecture. Mol Biol Cell. 2009;20:834-45 pubmed publisher
  22. Urano Tashiro Y, Yajima A, Takashima E, Takahashi Y, Konishi K. Binding of the Streptococcus gordonii DL1 surface protein Hsa to the host cell membrane glycoproteins CD11b, CD43, and CD50. Infect Immun. 2008;76:4686-91 pubmed publisher
  23. Tuoc T, Stoykova A. Trim11 modulates the function of neurogenic transcription factor Pax6 through ubiquitin-proteosome system. Genes Dev. 2008;22:1972-86 pubmed publisher
  24. Wang Y, Ladunga I, Miller A, Horken K, Plucinak T, Weeks D, et al. The small ubiquitin-like modifier (SUMO) and SUMO-conjugating system of Chlamydomonas reinhardtii. Genetics. 2008;179:177-92 pubmed publisher
  25. Zhou B, Liu J, Wang Q, Liu X, Li X, Li P, et al. The nucleocapsid protein of severe acute respiratory syndrome coronavirus inhibits cell cytokinesis and proliferation by interacting with translation elongation factor 1alpha. J Virol. 2008;82:6962-71 pubmed publisher
  26. Wang Y, Charlesworth A, Byrd S, Gregerson R, MacNicol M, MacNicol A. A novel mRNA 3' untranslated region translational control sequence regulates Xenopus Wee1 mRNA translation. Dev Biol. 2008;317:454-66 pubmed publisher
  27. Al Ramahi I, Perez A, Lim J, Zhang M, Sorensen R, de Haro M, et al. dAtaxin-2 mediates expanded Ataxin-1-induced neurodegeneration in a Drosophila model of SCA1. PLoS Genet. 2007;3:e234 pubmed publisher
  28. Paliwal P, Radha V, Swarup G. Regulation of p73 by Hck through kinase-dependent and independent mechanisms. BMC Mol Biol. 2007;8:45 pubmed
  29. Wang J, Sun H, Macia E, Kirchhausen T, Watson H, Bonifacino J, et al. PI4P promotes the recruitment of the GGA adaptor proteins to the trans-Golgi network and regulates their recognition of the ubiquitin sorting signal. Mol Biol Cell. 2007;18:2646-55 pubmed
  30. Yang S, Galanis A, Witty J, Sharrocks A. An extended consensus motif enhances the specificity of substrate modification by SUMO. EMBO J. 2006;25:5083-93 pubmed
  31. Moorthy A, Savinova O, Ho J, Wang V, Vu D, Ghosh G. The 20S proteasome processes NF-kappaB1 p105 into p50 in a translation-independent manner. EMBO J. 2006;25:1945-56 pubmed
  32. Su Q, Wang S, Baltzis D, Qu L, Wong A, Koromilas A. Tyrosine phosphorylation acts as a molecular switch to full-scale activation of the eIF2alpha RNA-dependent protein kinase. Proc Natl Acad Sci U S A. 2006;103:63-8 pubmed
  33. Kashuba E, Gradin K, Isaguliants M, Szekely L, Poellinger L, Klein G, et al. Regulation of transactivation function of the aryl hydrocarbon receptor by the Epstein-Barr virus-encoded EBNA-3 protein. J Biol Chem. 2006;281:1215-23 pubmed publisher
  34. Suzuki T, Okada Y, Semba S, Orba Y, Yamanouchi S, Endo S, et al. Identification of FEZ1 as a protein that interacts with JC virus agnoprotein and microtubules: role of agnoprotein-induced dissociation of FEZ1 from microtubules in viral propagation. J Biol Chem. 2005;280:24948-56 pubmed
  35. Shimoi W, Ezawa I, Nakamoto K, Uesaki S, Gabreski G, Aridor M, et al. p125 is localized in endoplasmic reticulum exit sites and involved in their organization. J Biol Chem. 2005;280:10141-8 pubmed