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Weidong Wang, Ph.D.

  1. Wang W., and Gralla J. Differential Ability of Proximal and Remote Element Pairs to Cooperate in Activating RNA Polymerase II Transcription. Mol. Cell. Biol. 11: 4561-71, 1991.[Abs]

  2. Wang, W., Carey, M., and Gralla, J.D. Polymerase II Promoter Activation: Closed Complex Formation and ATP-Driven Startsite Opening. Science 255: 450-453, 1992.[Abs]

  3. Wang W., Carey M., and Gralla J. The acidic activator GAL4-AH can stimulate polymerase II transcription by promoting assembly of a closed complex requiring TFIID and TFIIA. Genes & Dev. 6: 1716-27, 1992.[Abs]

  4. Hoang A.T., Wang W., and Gralla J. Studies of Reciprocal Influence between SV40 Replication Origin and Selected RNA Polymerase II Promoter Elements. Mol. Cell. Biol. 12: 3087-93, 1992.[Abs]

  5. Kalpana G.V., Marmon S., Wang W., Crabtree G.R., and Goff S.P. Binding and Stimulation of HIV-1 Integrase by a Human Homolog of Yeast Transcription Factor SNF5. Science 266: 2002-6, 1994.[Abs]

  6. Endrizzi J., Cronk J.D., Wang W., Crabtree G.R., and Alber T. Crystal Structure of DcoH, a Bifunctional, Protein-Binding Transcription Cofactor. Science 268: 556-9, 1995.[Abs]

  7. Wang W., Xue Y., Zhou S., Kuo A., Cairns B.R., and Crabtree G. Diversity and Specialization of Mammalian SWI/SNF Complexes. Genes & Dev. 10: 2117-30, 1996.[Abs]

  8. Wang W., Cote J., Xue Y., Zhou S., Muchardt C., Khavari P.A., Biggar S.R., Kalpana G.V., Goff S.P., Yaniv M., Workman J.L., and Crabtree G.R. Purification and Biochemical Heterogeneity of the Mammalian SWI-SNF Complex. Embo J. 15: 5370-82, 1996.[Abs]

  9. Wang W., Chi T., Xue Y., Kuo A., Zhou S., and Crabtree G. Architectural DNA Binding by a High-Mobility-Group/Kinesin-like Subunit in Mammalian SWI/SNF-Related Complexes. Proc. Natl. Acad. Sci. USA 95: 492-498, 1998.[Abs]

  10. Ring, H.Z., Vameghi-Meyers, V., Wang, W., Crabtree, G.R., and Francke, U. Five SWI/SNF-related, Matrix-associated, actin-dependent regulator chromatin (SMARC) genes are dispersed in the human genome. Genomics 51: 140-3, 1998.[Abs]

  11. Zhao, K.*, Wang, W*., Rando, O.J., Xue, Y., Swiderek, K., Kuo, A., and Crabtree. Rapid and phosphoinositol-dependent binding of the SWI/SNF-like BAF complex to chromatin after T lymphocyte receptor signaling. Cell 95:625-36, 1998. (*: Co-first authors).[Abs]

  12. Xue, Y., Wong, J., Moreno, R.T., Young, M.K., and Cote, J., and Wang, W. NURD, a novel complex with both ATP-dependent chromatin-remodeling and histone deacetylase activities. Mol. Cell 2: 851-61, 1998.[Abs]

  13. DeCristofaro, M.F., Betz, B.L., Wang, W., Weissman, B.E. Alteration of hSNF5/INI1/BAF47 detected in rhabdoid cell lines and primary rhabdomyosarcomas but not Wilms' tumors. Oncogene 18: 7559-7565, 1999.[Abs]

  14. Bochar, D.A., Savard, J., Wang, W., Lafleur, D.W., Moore, P., Cote, J., Shiekhattar, R. A family of chromatin remodeling factors related to Williams syndrome transcription factor. Proc. Natl. Acad. Sci. USA 97(3): 1038-1043, 2000.[Abs]

  15. Bochar, D.A., Wang, L., Beniya, H., Kinev, A., Xue, Y., Lane, W.S., Wang, W., Kashanchi, F., Shiekhattar, R. BRCA1 is associated with a human SWI/SNF-related complex: Linking chromatin remodeling to breast cancer. Cell 102: 257-265, 2000. [Abs]

  16. Nie, Z., Xue, Y., Yang, D., Zhou, S. Deroo, B.J., Archer, T.K., Wang, W. A Specificity and targeting subunit of a human SWI/SNF family-related chromatin-remodeling complex. Mol. Cell. Biol., 20(23): 8879-8888, 2000. [Abs]

  17. Xue, Y., Canman, J.C., Lee, C.S., Nie, Z., Yang, D., Moreno, G.T., Young, M.K., Salmon, E.D., Wang, W. The human SWI/SNf-B chromatin-remodeling complex is related to yeast Rsc and localizes at kinetochores of mitotic chromosomes. Proc. Natl. Acad. Sci. USA 97: 13015-13020, 2000. [Abs]

  18. Decristofaro, M.F., Betz, B.L., Rorie, C.J., Reisman, D.N., Wang, W., Weissman, B.E. Characterization of SWI/SNF protein expression in human breast cancer cell lines and other malignancies. J. Cell Physiol., 186(1): 136-145, 2001. [Abs]

  19. Li, J., Lin, Q., Wang, W., Wade, P., Wong, J. Specific targeting and constitutive association of histone deacetylase complexes during transcriptional repression. Genes Dev. , 16(6): 687-692, 2002. [reprint]

  20. Olave, I., Wang, W., Xue, Y., Kuo, A., Crabtree, G.R. Identification of a polymorphic, neuron-specific chromatin remodeling complex. Genes Dev., 16(19): 2509-2517, 2002. [Abs]

  21. Nie, Z., Yan, Z., Chen, E.H., Sechi, S., Ling, C., Zhou, S., Xue, Y., Yang, D., Murray, D., Kanakubo, E., Cleary, M.L., Wang, W. Novel SWI/SNF chromatin-remodeling complexes contain a mixed-lineage leukemia chromosomal translocation partner. Mol. Cell Biol., 23(8): 2942-2952, 2003. [Abs] - [html]

  22. Meetei, A.R., Sechi, S., Wallisch, M., Yang, D., Young, M.K., Joenje, H., Hoatlin, M.E., Wang, W. A multiprotein nuclear complex connects Fanconi anemia and Bloom syndrome. Mol. Cell Biol., 23(10): 3417-3426, 2003. [Abs]

  23. Meetei, A.R., de Winter, J.P., Wallisch, M., Waisfisz, Q., van de Vrugt, H.J., Oostra, A.B., Yan, Z., Ling, C., Bishop, C.E., Hoatlin, M.E., Joenje, H., and Wang, W. A novel ubiquitin ligase is deficient in Fanconi anaemia. Nat. Genet., 35(2): 165-170, 2003. (also see News & Views 35:113-114). [Abs]

  24. Xue, Y., Gibbons, R., Yang, D., McDowell, T., Sechi, S., Qin, J., Zhou, S., Higgs, D., Wang, W. The ATRX syndrome protein forms a new chromatin-remodeling complex with Daxx and localizes in PML nuclear bodies. Proc. Natl. Acad. Sci. USA, 100(19): 10635-10640, 2003. [Abs]

  25. Wang, W. The SWI/SNF Family of ATP-dependent Chromatin-Remodelers: Similar Mechanisms for Diverse Functions. Current Topics in Microbiology and Immunology. 274: 143-169, 2003, volume on Protein Complexes that Modify Chromatin. edited Jerry Workman, Springer-Verlag.

  26. Meetei, A.R.,Yan, Z., Wang, W. FANCL replaces BRCA1 as the likely ubiquitin ligase responsible for FANCD2 monoubiquitination. Cell Cycle., 3(2): 179-181, 2004. [Abs]

  27. Chi, T., Yan, Z., Xue, Y., Wang, W. Purification and functional analysis of the mammalian SWI/SNF-family of chromatin-remodeling complexes. Methods Enzymol., 377: 299-316, 2004. [Abs]

  28. Yin, J., Haney, L., Walk, S., Zhou, S., and Ravichandran, K.S., Wang, W. Nuclear localization of the DOCK180/ELMO complex. Archives of Biochemistry and Biophysics, 429: 23-29. 2004. [Abs]

  29. Yin, J., Kwon, Y.T., Varshavsky, A., Wang, W. RECQL4, mutated in the Rothmund-Thomson and RAPADILINO syndromes, interacts with ubiquitin ligases UBR1 and UBR2 of the N-end rule pathway. Hum Mol Genet. 13(20): 2421-2430, 2004. [Abs]

  30. Meetei, A.R.*, Levitus, M.*, Xue, Y., Medhurst, A.L., Zwaan, M., Ling, C., Rooimans, M.A., Bier, P., Hoatlin, M., Pals, G., de Winter, J.P., Wang, W.*, Joenje, H*. X-linked inheritance of Fanconi anemia complementation group B. Nat Genet. 36: 1219-1224, 2004. [Abs] Also see News and Views on page 1142-1143. (*: Co-first and co-corresponding authors from two groups).

  31. Fei, P., Yin, J., Wang, W. New advances in the DNA damage response network of Fanconi anemia and BRCA proteins: FAAP95 replaces BRCA2 as the true FANCB protein. Cell Cycle. 4(1), 80-86, 2005. [Abs]

  32. Sekine, I., Sato, M., Sunaga, N., Toyooka, S., Peyton, M., Parsons, R., Wang, W,, Gazdar. A.F., Minna, J.D. The 3p21 candidate tumor suppressor gene BAF180 is normally expressed in human lung cancer. Oncogene. 24(16), 2735-2738, 2005.[Abs]

  33. Yin, J., Sobeck, A., Xu, C., Meetei, A.R., Hoatlin, M., Li, L., Wang, W. BLAP75, an essential component of Bloom's syndrome protein complexes that maintain genome integrity. EMBO J. 24, 1465-1476, 2005. [Abs]

  34. Yan, Z., Cui, K., Murray, D.M., Ling, C., Xue, Y., Gerstein, A., Parsons, R., Zhao, K., Wang, W. PBAF chromatin-remodeling complex requires a novel specificity subunit, BAF200, to regulate expression of selective interferon-responsive genes. Genes Dev. 19(14), 1662-1667, 2005. [Abs]

  35. Meetei, A.R., Medhurst, A.L., Ling, C., Xue, Y., Singh, T.R., Bier, P., Steltenpool, J., Stone, S., Dokal, I., Mathew, C.G., Hoatlin, M., Joenje, H., de Winter, J.P., Wang, W. A human ortholog of archaeal DNA repair protein Hef is defective in Fanconi anemia complementation group M. Nature Genetics 37, 958-963, 2005. Also see News and Views on p921-922. [Abs]

  36. Sobeck, A., Stone, S., Costanzo, V., de Graaf, B., Reuter, T., de Winter, J., Wallisch, M., Akkari, Y., Olson, S., Wang, W., Joenje, H., Christian, J.L., Lupardus, P.J., Cimprich, K.A., Gautier, J., Hoatlin, M.E. Fanconi anemia proteins are required to prevent accumulation of replication-associated DNA double-strand breaks. Mol. Cell Biol. 26(2), 425-437, 2006. [Abs]

  37. Wu, L., Bachrati, C.Z., Ou, J., Xu, C., Yin, J., Chang, M., Wang, W., Li, L., Brown, G.W., Hickson, I.D. BLAP75/RMI1 promotes the BLM-dependent dissolution of homologous recombination intermediates. Proc Natl Acad Sci USA. 103(11), 4068-4073, 2006. [Abs]

  38. Hu, K., Nan, X., Bird, A., Wang, W. Testing for association between MeCP2 and the Brahma-associated SWI/SNF chromatin-remodeling complex. Nat. Genet. 38, 962-964, 2006.

  39. Pellegrini, M., Celeste, A., Difilippantonio, S., Guo, R., Wang, W., Feigenbaum, L., Nussenzweig, A. Autophosphorylation at serine 1987 is dispensable for murine Atm activation in vivo. Nature. 443(7108), 222-225, 2006. [Abs]

  40. Xia, B., Dorsman, J.C., Ameziane, N., de Vries, Y., Rooimans, M.A., Sheng, Q., Pals, G., Errami, A., Gluckman, E., Llera, J., Wang, W., Livingston, D.M., Joenje, H., de Winter, J.P. Fanconi anemia is associated with a defect in the BRCA2 partner PALB2. Nat. Genet. 39(2), 159-161, 2007. [Abs]

  41. Ciccia, A.*, Ling, C.*, Coulthard, R., Yan, Z., Xue, Y., Meetei, A.R., Laghmani, E.H., Joenje, H., McDonald, N., de Winter, J.P., Wang, W.*, West, S.C.*: co-first authors and co-corresponding authors from two groups. Identification of FAAP24, a Fanconi anemia core complex protein that interacts with FANCM. Molecular Cell. 25, 331-343, 2007. [Abs]

  42. Ling, C., Ishiai, M., Ali, A.M., Medhurst, A.L., Neveling, K., Kalb, R., Yan, Z., Xue, Y., Oostra, A.B., Auerbach, A.D., Hoatlin, M.E., Schindler, D., Joenje, H., de Winter, J., Takata, M., Meetei, A.R., Wang W. FAAP100 is essential for activation of the Fanconi anemia-associated DNA damage response pathway. EMBO J. 26, 2104-2114, 2007. [Abs]

  43. Wang, W. Emergence of a DNA-damage response network consisting of Fanconi anaemia and BRCA proteins. Nat Rev Genet. 8(10), 735-748, 2007. [Abs]

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