SIGMA-ALDRICH search Sigma-Aldrich JAK2 products
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| wb | | Sigma-Aldrich monoclonal mouse anti-phospho-JAK-2 antibody was used in western blot to detect phospho-JAK-2 in cell lysates of HUVEC. |
SANTA CRUZ BIOTECHNOLOGY search Santa Cruz Biotechnology JAK2 products
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| ip, wb | | Santa Cruz Biotechnology rabbit polyclonal antibody against JAK2 (HR-758) was used in western blot and immunoprecipitation to study the inhibiting effects of estrogen on transcriptional action of GH through the JAK/STAT pathway, mediated by SOCS-2. |
| wb | | Santa Cruz Biotechnology anti-phospho-Jak2 (Tyr 1007/Tyr 1008) antibody was used in human T-cell leukemia cell lines and in western blot to study the effect of Jak-Stat pathway on cell growth of human T-cell leukemia virus type 1-infected T-cell lines and primary adult T-cell leukemia cells. |
| wb | | Santa Cruz Biotechnology rabbit polyclonal anti-Jak2 antibody was used in western blot to study the role of LMO4 in cytokine signaling. |
EMD BIOSCIENCES search EMD Biosciences JAK2 products
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| wb | | Calbiochem anti-phosphorylated Jak2 antibody was used in human breast cancer cells and in western blot to study the role for IL-6 in driving Stat3 activation in breast cancer. |
MILLIPORE search Millipore JAK2 products
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| ip, wb | | Upstate polyclonal Jak2 antibody was used in western blot and immunoprecipitation to study CXCL12 signaling. |
| ip | | Upstate Biotechnology polyclonal anti-Jak2 antibody was used in immunoprecipitation to study the function for SHP-2 as a positive regulator of cytokine receptor signaling by regulating ubiquitination/degradation pathways. |
| wb | | Upstate Biotechnology rabbit polyclonal anti-JAK-2 antibody was used in western blot to detect JAK-2 in cell lysates of HUVEC. |
| wb | | Upstate Biotechnology rabbit polyclonal anti-phospho-JAK2 antibody was used in western blot to detect phospho-JAK2 in cultured CD34+ cells isolated from blood samples of CHD patients. |
| wb | | Upstate Biotechnology anti-JAK2 antibody was used in human H295R cells and in western blot to study the roles of Janus kinase 2 and calcium for angiotensin II-dependent activation of steroidogenic acute regulatory protein transcription in H295R human adrenocortical cells. |
| wb | | Upstate anti-Jak2 antibody was used in human breast cancer cells and in western blot to study the role for IL-6 in driving Stat3 activation in breast cancer. |
| wb | | Upstate Biotechnology polyclonal anti–phospho-Janus kinase 2 (JAK2) and anti-JAK2 antibodies were used in western blot to study Pax-2 expression in fetal kidney cells. |
| wb | | Upstate Biotechnology anti-JAK2 antibody was used in western blot to study the phosphorylation of JAK2. |
| wb | | Upstate Biotechnology anti-phospho-JAK2 and anti-JAK2 antibodies were used in western blot to study leptin receptor activation. |
INVITROGEN search Invitrogen JAK2 products
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| wb | | BioSource International anti-total and phosphorylated JAK2 antibodies were used in western blot to study the effect of serine protease plasmin on expression of MCP-1 and CD40 in human primary monocytes. |
| wb | | BIOSOURCE anti-JAK2 antibody was used in human cervical carcinoma cell line HeLa and in western blot to study the role for heat shock protein 90-CDC37 chaperone complex in types I and II interferon pathways. |
| wb | | BioSource International anti-phosphotyrosine-JAK2 antibody was used in human H295R cells and in western blot to study the roles of Janus kinase 2 and calcium for angiotensin II-dependent activation of steroidogenic acute regulatory protein transcription in H295R human adrenocortical cells. |
| wb | | BIOSOURCE International polyclonal anti-phospho-Jak2 (Tyr-1007/Tyr-1008) antibody was used in western blot to study the function for SHP-2 as a positive regulator of cytokine receptor signaling by regulating ubiquitination/degradation pathways. |
Articles Reviewed |
| 1. Dayanand D Deo et al. Phosphorylation of STAT-3 in response to basic fibroblast growth factor occurs through a mechanism involving platelet-activating factor, JAK-2, and Src in human umbilical vein endothelial cells. Evidence for a dual kinase mechanism. 2002 |
| 2. Diane Lejeune et al. Interleukin-22 (IL-22) activates the JAK/STAT, ERK, JNK, and p38 MAP kinase pathways in a rat hepatoma cell line. Pathways that are shared with and distinct from IL-10. 2002 |
| 3. Ladislav Burysek et al. The serine protease plasmin triggers expression of MCP-1 and CD40 in human primary monocytes via activation of p38 MAPK and janus kinase (JAK)/STAT signaling pathways. 2002 |
| 4. K C Leung et al. Estrogen inhibits GH signaling by suppressing GH-induced JAK2 phosphorylation, an effect mediated by SOCS-2. 2003 |
| 5. Samir Ali et al. SHP-2 regulates SOCS-1-mediated Janus kinase-2 ubiquitination/degradation downstream of the prolactin receptor. 2003 |
| 6. Jianghong Li et al. Janus kinase 2 and calcium are required for angiotensin II-dependent activation of steroidogenic acute regulatory protein transcription in H295R human adrenocortical cells. 2003 |
| 7. Shao-Ling Zhang et al. Angiotensin II increases Pax-2 expression in fetal kidney cells via the AT2 receptor. 2004 |
| 8. Shigeru Akagi et al. The critical role of SRC homology domain 2-containing tyrosine phosphatase-1 in recombinant human erythropoietin hyporesponsive anemia in chronic hemodialysis patients. 2004 |
| 9. Masato Moriguchi et al. CXCL12 signaling is independent of Jak2 and Jak3. 2005 |
| 10. Veronica Novotny-Diermayr et al. Modulation of the interleukin-6 receptor subunit glycoprotein 130 complex and its signaling by LMO4 interaction. 2005 |
| 11. Lennart Zabeau et al. Leptin receptor activation depends on critical cysteine residues in its fibronectin type III subdomains. 2005 |
| 12. Limin Shang et al. The heat shock protein 90-CDC37 chaperone complex is required for signaling by types I and II interferons. 2006 |
| 13. Mariko Tomita et al. Inhibition of constitutively active Jak-Stat pathway suppresses cell growth of human T-cell leukemia virus type 1-infected T-cell lines and primary adult T-cell leukemia cells. 2006 |
| 14. Marjan Berishaj et al. Stat3 is tyrosine-phosphorylated through the interleukin-6/glycoprotein 130/Janus kinase pathway in breast cancer. 2007 |