CELL SIGNALING TECHNOLOGY search Cell Signaling Technology RAF1 products
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| ip, wb | | Cell Signaling Technology anti-c-Raf and anti-phospho-c-Raf (Ser338) antibodies were used in human 1HAEo cell line, and which were respectively used in western blot, immunoprecipitation and western blot, to study the link between the PI3K-Akt pathway and the cigarette smoke (CS) -stimulated epidermal growth factor receptor-mediated FRA-1 induction in non-oncogenic HBE cells. |
| wb | | Cell Signaling Technology rabbit antibody against the phosphorylated form of cRaf-1 (Ser259 phospho-Raf) was used in western blot to study the role for PI 3-kinase in HHV-8 entry into the target cells and the role for PKC-zeta, MEK, and ERK at a post-viral entry stage of infection. |
| wb | | Cell Signaling Technology anti-phospho-Raf antibody was used in western blot to detect phospho-Raf in COS-7 and human embryonic kidney (HEK) -293 cells with specific gene transfection. |
| wb | | Cell Signaling anti-phospho-c-Raf antibody was used in western blot to detect phospho-c-Raf in HT-29 cells treated with NMT1-1 siRNA or NMT2-4 siRNA. |
| wb | | Cell Signaling Technology anti-phosphorylated Raf-1 antibody was used in Western blot to study the biological function of Rac-MKK3/6-p38 pathway. |
SANTA CRUZ BIOTECHNOLOGY search Santa Cruz Biotechnology RAF1 products
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| ip, wb | | Santa Cruz Biotechnology rabbit polyclonal antibody against cRaf-1 was used in western blot and immunoprecipitation to investigate the phosphatidylinositol 3-kinase-PKC-zeta-MEK-ERK signaling pathway mediated by Kaposi's sarcoma-associated herpesvirus early during infection of target cells. |
| ip | | Santa Cruz Biotechnology rabbit polyclonal anti-Raf-1 antibody was used in thyroid TAD-2 cells and the hepatoma cell line Hep3B and in immunoprecipitation to study the interaction of calcium/calmodulin-dependent protein kinase II with Raf-1 and the effect of it on integrin-stimulated ERK activation. |
| ip | | Santa Cruz Biotechnology anti Raf-1 (E10) antibody was used in immunoprecipitation to study the effect of ectopic B-Raf expression in T Cells. |
| wb | | Santa Cruz Biotechnology rabbit polyclonal antibody which recognizes Raf-1 was used in western blot to study the role of p38 kinase in hypoxia-inducible factor 1-independent induction of vascular endothelial growth factor expression by sodium arsenite. |
| wb | | Santa Cruz Biotechnology anti-Raf-1 antibody E10 was used in western blot to study the direct interaction between human CNK1 and Raf-1. |
| wb | | Santa Cruz Biotechnology polyclonal anti-human Raf-1 antibody C-12 was used in western blot to study the involvement of tumor necrosis factor receptor-associated protein 1 (TRAP1) in apoptosis which was induced by β-hydroxyisovalerylshikonin. |
| wb | | Santa Cruz Biotechnology anti-Raf-1 polyclonal antibody was used in western blot to study the regulation of activity of the human tissue factor pathway inhibitor-2 promoter by the ERK/MAPK pathway. |
| wb | | Santa Cruz Biotechnology anti-c-Raf antibody (C-12) was used in human breast cancer cells and in western blot to study the role for Q227L-Gα in inhibiting growth of established tumors of later-stage human breast cancer cells in athymic mice. |
| wb | | Santa Cruz Biotechnology rabbit or goat polyclonal anti-c-Raf-1 antibody (C-12) was used in western blot to study the structural basis for 14-3-3sigma functional specificity. |
| wb | | Santa Cruz Biotechnology rabbit polyclonal anti-C-Raf antibody was used in western blot to study a New Negative Regulator of A-Raf Kinase, trihydrophobin 1. |
| wb | | Santa Cruz Biotechnology monoclonal Raf-1 antibody was used in western blot to study the effect on BAD phosphorylation and Bcl-2 association by Raf-1 phosphorylation. |
BD BIOSCIENCES search BD Biosciences RAF1 products
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| ip, wb | | BD Transduction Laboratories Raf-1 antibody was used in western blot and immunoprecipitation to study 3-phosphoinositide-dependent protein kinase-1 activity regulation. |
| wb | | Transduction Laboratories murine monoclonal anti-c-Raf-1 antibody was used in western blot to study expression of p53, ErbB1, ErbB2, and Raf-1 in lung cancer. |
EMD BIOSCIENCES search EMD Biosciences RAF1 products
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| wb | | Calbiochem anti-phospho-Raf-1 Tyr-340 antibody was used in western blot to study the effect on BAD phosphorylation and Bcl-2 association by Raf-1 phosphorylation. |
MILLIPORE search Millipore RAF1 products
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| wb | | Upstate antibody against phospho-Raf-1 (Ser-338) was used in western blot to detect the active Raf in human HEK 293 cells. |
| wb | | Upstate Biotechnology monoclonal anti-Ser (P) -338 Raf-1 antibody was used in western blot and immunocytochemistry to study the effect on BAD phosphorylation and Bcl-2 association by Raf-1 phosphorylation. |
INVITROGEN search Invitrogen RAF1 products
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| wb | | BioSource rabbit anti-c-Raf antibody pYpY340/341 was used in western blot to study the direct interaction between human CNK1 and Raf-1. |
Articles Reviewed |
| 1. Tara Ann Santore et al. Adenovirus-directed expression of Q227L-G alpha(s) inhibits growth of established tumors of later-stage human breast cancer cells in athymic mice. 2002 |
| 2. Xiaodan Yu et al. Modulation of p53, ErbB1, ErbB2, and Raf-1 expression in lung cancer cells by depsipeptide FR901228. 2002 |
| 3. Saori Sato et al. Regulation of kinase activity of 3-phosphoinositide-dependent protein kinase-1 by binding to 14-3-3. 2002 |
| 4. Christina Kast et al. The ERK/MAPK pathway regulates the activity of the human tissue factor pathway inhibitor-2 promoter. 2003 |
| 5. Monique C A Duyndam et al. Evidence for a role of p38 kinase in hypoxia-inducible factor 1-independent induction of vascular endothelial growth factor expression by sodium arsenite. 2003 |
| 6. Pramod P Naranatt et al. Kaposi's sarcoma-associated herpesvirus induces the phosphatidylinositol 3-kinase-PKC-zeta-MEK-ERK signaling pathway in target cells early during infection: implications for infectivity. 2003 |
| 7. Tara J Dillon et al. Ectopic B-Raf expression enhances extracellular signal-regulated kinase (ERK) signaling in T cells and prevents antigen-presenting cell-induced anergy. 2003 |
| 8. Maddalena Illario et al. Calcium/calmodulin-dependent protein kinase II binds to Raf-1 and modulates integrin-stimulated ERK activation. 2003 |
| 9. Ying H Shen et al. Significance of 14-3-3 self-dimerization for phosphorylation-dependent target binding. 2003 |
| 10. Weicheng Liu et al. Trihydrophobin 1 is a new negative regulator of A-Raf kinase. 2004 |
| 11. Yutaka Masuda et al. Involvement of tumor necrosis factor receptor-associated protein 1 (TRAP1) in apoptosis induced by beta-hydroxyisovalerylshikonin. 2004 |
| 12. Ilchung Shin et al. H-Ras-specific activation of Rac-MKK3/6-p38 pathway: its critical role in invasion and migration of breast epithelial cells. 2005 |
| 13. Erik W Wilker et al. A structural basis for 14-3-3sigma functional specificity. 2005 |
| 14. Algirdas Ziogas et al. CNK1 is a scaffold protein that regulates Src-mediated Raf-1 activation. 2005 |
| 15. Shenghao Jin et al. p21-activated Kinase 1 (Pak1)-dependent phosphorylation of Raf-1 regulates its mitochondrial localization, phosphorylation of BAD, and Bcl-2 association. 2005 |
| 16. Charles E Ducker et al. Two N-myristoyltransferase isozymes play unique roles in protein myristoylation, proliferation, and apoptosis. 2005 |
| 17. Penggao Dai et al. Erbin inhibits RAF activation by disrupting the sur-8-Ras-Raf complex. 2006 |
| 18. Qin Zhang et al. A Phosphatidylinositol 3-kinase-regulated Akt-independent signaling promotes cigarette smoke-induced FRA-1 expression. 2006 |