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Ji J., Liu R., Tong T., Song Y., Jin S., Wu M., Zhan Q. Gadd45a regulates β-catenin distribution and maintains cell–cell adhesion/contactGadd45a induces β-catenin distribution. Oncogene. 26:6396-6405, 2007 | Ji J., Liu R., Tong T., Song Y., Jin S., Wu M., Zhan Q. Gadd45a regulates β-catenin distribution and maintains cell–cell adhesion/contactGadd45a induces β-catenin distribution. Oncogene. 26:6396-6405, 2007 | ||
- | Krishnamoorthy B., Narayanan K., Miyamoto S., Balakrishnan A. Epithelial Cells Release Proinflammatory Cytokines and Undergo c-Myc-Induced Apoptosis on Exposure to Filarial Parasitic Sheath Protein-Bc12 Mediates Rescue by Activating c-H-Ras. In Vitro Cellular & Developmental Biology. Animal. 36: 532-538, 2000. | + | Krishnamoorthy B., Narayanan K., Miyamoto S., Balakrishnan A. Epithelial cells release proinflammatory cytokines and undergo c-Myc-induced apoptosis on exposure to filarial parasitic sheath protein-Bc12 mediates rescue by activating c-H-Ras. In Vitro Cellular & Developmental Biology. Animal. 36: 532-538, 2000. |
Lorenzi M.V., Horii Y., Yamanaka R., Sakaguchi K., Miki T. FRAG1, a gene that potently activates fibroblast growth factor receptor by C-terminal fusion through chromosomal rearrangement. PNAS. 93: 8956-8961, 1996. | Lorenzi M.V., Horii Y., Yamanaka R., Sakaguchi K., Miki T. FRAG1, a gene that potently activates fibroblast growth factor receptor by C-terminal fusion through chromosomal rearrangement. PNAS. 93: 8956-8961, 1996. | ||
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Resnitzky D. and Kimchi A. Deregulated c-myc expression abrogates the interferon- and interleukin 6-mediated G0/G1 cell cycle arrest but not other inhibitory responses in M1 myeloblastic cells. Cell Growth & Differentiation. 2: 33-41. | Resnitzky D. and Kimchi A. Deregulated c-myc expression abrogates the interferon- and interleukin 6-mediated G0/G1 cell cycle arrest but not other inhibitory responses in M1 myeloblastic cells. Cell Growth & Differentiation. 2: 33-41. | ||
- | Shchors K., Shchors E., Rostker F., Lawlor E.R., Brown-Swigart L., Evan G.I. The Myc-dependent angiogenic switch in tumors is mediated by interleukin 1β. Genes Dev. 20: 2527–2538, 2006. | + | Shchors K., Shchors E., Rostker F., Lawlor E.R., Brown-Swigart L., Evan G.I. The Myc-dependent angiogenic switch in tumors is mediated by interleukin 1. Genes Dev. 20: 2527–2538, 2006. |
Weinstein I.B. and Joe A.K. Mechanisms of disease: Oncogene addiction—a rationale for molecular targeting in cancer therapy. Nature Clinical Practice Oncology. 3:448–457, 2006. | Weinstein I.B. and Joe A.K. Mechanisms of disease: Oncogene addiction—a rationale for molecular targeting in cancer therapy. Nature Clinical Practice Oncology. 3:448–457, 2006. |