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  1. 1.   Allosteric activation of E2-RING finger-mediated ubiquitylation by a structurally defined specific E2-binding region of gp78
  2. Das, R.; Mariano, J.; Tsai, Y. C.; Kalathur, R. C.; Kostova, Z.; Li, J.; Tarasov, S. G.; McFeeters, R. L.; Altieri, A. S.; Ji, X.; Byrd, R. A.; Weissman, A. M.
  3. Molecular Cell. 2009, Jun 26; 34(6): 674-85.
  1. 2.   Targeting of gp78 for ubiquitin-mediated proteasomal degradation by Hrd1: Cross-talk between E3s in the endoplasmic reticulum
  2. Shmueli, A.; Tsai, Y. C.; Yang, M.; Braun, M. A.; Weissman, A. M.
  3. Biochemical and Biophysical Research Communications. 2009 390(3): 758-762.
  1. 3.   Targeting tumor cells expressing p53 with a water-soluble inhibitor of Hdm2
  2. Kitagaki, J.; Agama, K. K.; Pommier, Y.; Yang, Y. L.; Weissman, A. M.
  3. Molecular Cancer Therapeutics. 2008 7(8): 2445-2454.
  1. 4.   The activity of a human endoplasmic reticulum-associated degradation E3, gp78, requires its Cue domain,, RING finger, and an E2-binding site
  2. Chen, B.; Mariano, J.; Tsai, Y. C.; Chan, A. H.; Cohen, M.; Weissman, A. M.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2006, JAN 10; 103(2): 341-346.
  1. 5.   A novel RING-type ubiquitin ligase breast cancer-associated gene 2 correlates with outcome in invasive breast cancer
  2. Burger, A. M.; Gao, Y. G.; Amemiya, Y.; Kahn, H. J.; Kitching, R.; Yang, Y. L.; Sun, P.; Narod, S. A.; Hanna, W. M.; Seth, A. K.
  3. Cancer Research. 2005, NOV 15; 65(22): 10401-10412.
  1. 6.   Multiple roles of Rbx1 in the VBC-Cul2 ubiquitin ligase complex
  2. Megumi, Y.; Miyauchi, Y.; Sakurai, H.; Nobeyama, H.; Lorick, K.; Nakamura, E.; Chiba, T.; Tanaka, K.; Weissman, A. M.; Kirisako, T.; Ogawa, O.; Iwai, K.
  3. Genes to Cells. 2005, JUL; 10(7): 679-691.
  1. 7.   Expression, purification, and properties of the Ubc4/5 family of E2 enzymes
  2. Lorick, K. L.; Jensen, J. P.; Weissman, A. M.
  3. Methods in Enzymology. 2005; 398 : 54-68.
  1. 8.   Expression and evaluation of RING finger proteins
  2. Yang, Y. L.; Lorick, K. L.; Jensen, J. P.; Weissman, A. M.
  3. Methods in Enzymology. 2005; 398 : 103-112.
  1. 9.   Transcriptional coregulator SNURF (RNF4) possesses ubiquitin E3 ligase activity
  2. Hakli, M.; Lorick, K. L.; Weissman, A. M.; Janne, O. A.; Palvimo, J. J.
  3. Febs Letters. 2004 560(1-3): 56-62.
  1. 10.   A conserved catalytic residue in the ubiquitin-conjugating enzyme family
  2. Wu, P. Y.; Hanlon, M.; Eddins, M.; Tsui, C.; Rogers, R. S.; Jensen, J. P.; Matunis, M. J.; Weissman, A. M.; Wolberger, C. P.; Pickart, C. M.
  3. Embo Journal. 2003 22(19): 5241-5250.
  1. 11.   BTBD1 and BTBD2 colocalize to cytoplasmic bodies with the RBCC/tripartite motif protein, TRIM5 delta
  2. Xu, L. X.; Yang, L. H.; Moitra, P. K.; Hashimoto, K.; Rallabhandi, P.; Kaul, S.; Meroni, G.; Jensen, J. P.; Weissman, A. M.; D'Arpa, P.
  3. Experimental Cell Research. 2003 288(1): 84-93.
  1. 12.   Regulation of apoptosis: the ubiquitous way
  2. Yang, Y. L.; Yu, X. D.
  3. Faseb Journal. 2003 17(8): 790-799.
  1. 13.   RING finger ubiquitin protein ligases: implications for tumorigenesis, metastasis and for molecular targets in cancer
  2. Fang, S.; Lorick, K. L.; Jensen, J. P.; Weissman, A. M.
  3. Seminars in Cancer Biology. 2003 13(1): 5-14.
  1. 14.   Promotion of S-Phase entry and cell growth under serum starvation by SAC/ROC2/Rbx2/Hrt2, an E3 ubiquitin ligase component: Association with inhibition of p27 accumulation
  2. Duan, H. J.; Tsvetkov, L. M.; Liu, Y. L.; Song, Y.; Swaroop, M.; Wen, R.; Kung, H. F.; Zhang, H.; Sun, Y.
  3. Molecular Carcinogenesis. 2001 30(1): 37-46.
  1. 15.   CAK-independent activation of CDK6 by a viral cyclin
  2. Kaldis, P.; Ojala, P. M.; Tong, L.; Makela, T. P.; Solomon, M. J.
  3. Molecular Biology of the Cell. 2001 12(12): 3987-3999.
  1. 16.   The effects of changing the site of activating phosphorylation in CDK2 from threonine to serine
  2. Kaldis, P.; Cheng, A. Y.; Solomon, M. J.
  3. Journal of Biological Chemistry. 2000 275(42): 32578-32584.
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