Publications 1995-2008
Simin, K., Hill, R., Song, Y., Zhang, Q., Bash, R., Cardiff, R.D., Yin, C., Xiao, A., McCarthy, K., and Van Dyke, T. (2005). Deciphering cancer complexities in genetically engineered mice. Cold Spring Harb Symp Quant Biol. 70:283-90.
DeCristofaro, M. F., Betz, B.L., Wang, W. and Weissman, B. E. (1999). Alteration of hSNF5/INI1/BAF47 detected in rhabdoid cell lines and primary rhabdomyosarcomas but not Wilms' tumors. Oncogene. 18: 7559-7565.
Decristofaro, M. F., Betz, B.L., Rorie, C. J., Reisman, D. N., Wang, W. and Weissman, B. E. (2001). Characterization of SWI/SNF protein expression in human breast cancer cell lines and other malignancies. J Cell Physiol. 186: 136-145.
Betz, B.L, Strobeck, M. W., Reisman, D. N., Knudsen, E. S. and Weissman, B. E. (2002). Re-expression of hSNF5/INI1/BAF47 in pediatric tumor cells leads to G1 arrest associated with induction of p16ink4a and activation of RB. Oncogene. 21: 5193-5203.
Reisman, D. N., Strobeck, M. W., Betz, B.L., Sciariotta, J., Funkhouser, W., Jr., Murchardt, C., Yaniv, M., Sherman, L. S., Knudsen, E. S. and Weissman, B. E. (2002). Concomitant down-regulation of BRM and BRG1 in human tumor cell lines: differential effects on RB-mediated growth arrest vs CD44 expression. Oncogene. 21: 1196-1207.
Strobeck, M. W., Reisman, D. N., Gunawardena, R. W., Betz, B.L., Angus, S. P., Knudsen, K. E., Kowalik, T. F., Weissman, B. E. and Knudsen, E. S. (2002). Compensation of BRG-1 function by Brm: insight into the role of the core SWI-SNF subunits in retinoblastoma tumor suppressor signaling. J Biol Chem. 277: 4782-4789.
Betz, B.L. and Weissman, B. E. (2003). Hybrid capture of putative tumor suppressor genes. Methods Mol Biol. 222: 365-373.
Chai, J., Charboneau, A., Betz, B. L. and Weissman, B. E. (2005). Loss of the hSNF5 gene concomitantly inactivates p21CIP/WAF1 and p16INK4a activity associated with replicative senescence in A204 rhabdoid cells. Cancer Res. 65:10192-10198.
Berzat, A.C., Brady, D.C., Fiordalisi, J.J. and Cox, A.D. (2005). Using inhibitors of prenylation to block localization and transforming activity. Methods Enzymol. 407: 575-597.
Thomas, J. W., Cooley, M. A., Broome, J.M., Salgia, R., Griffin, J. D., Lombardo, C. R. and Schaller, M. D. (1999). The role of focal adhesion kinase binding in the regulation of tyrosine phosphorylation of paxillin. J Biol Chem. 274: 36684-36692.
Cooley, M. A., Broome, J.M., Ohngemach, C., Romer, L. H. and Schaller, M. D. (2000). Paxillin binding is not the sole determinant of focal adhesion localization or dominant-negative activity of focal adhesion kinase/focal adhesion kinase-related nonkinase. Mol Biol Cell. 11: 3247-3263.
Lyons, P.D., Dunty, J.M., Schaefer, E.M., Schaller, M.D. (2001). Inhibition of the catalytic activity of cell adhesion kinase beta by protein-tyrosine phosphatase-PEST-mediated dephosphorylation. J Biol Chem. 276:24422-24431.
Dunty, J.M. and Schaller, M.D. (2002). The N termini of focal adhesion kinase family members regulate substrate phosphorylation, localization, and cell morphology. J Biol Chem. 277:45644-45654.
Gabarra-Niecko, V., Schaller, M.D., Dunty, J.M. (2003). FAK regulates biological processes important for the pathogenesis of cancer. Cancer Metastasis Rev. 4:359-374.
Dunty, J.M., Gabarra-Niecko, V., King, M.L., Ceccarelli, D.F., Eck, M.J. and Schaller, M.D. (2004). FERM domain interaction promotes FAK signaling. Mol Cell Biol. 12:5353-5368.
Ellerbroek, S.M., Wennerberg, K., Arthur, W.T., Dunty, J.M., Bowman, D.R., DeMali, K.A., Der, C.J. and Burridge, K. (2004). SGEF, a RhoG guanine nucleotide exchange factor that stimulates macropinocytosis. Mol Biol Cell. 15:3309-3319.
Rusyn, E. V., Reynolds, E. R., Shao, H., Grana, T.M., Chan, T. O., Andres, D. A. and Cox, A. D. (2000). Rit, a non-lipid-modified Ras-related protein, transforms NIH3T3 cells without activating the ERK, JNK, p38 MAPK or PI3K/Akt pathways. Oncogene. 19: 4685-4694.
Grana, T.M., Rusyn, E. V., Zhou, H., Sartor, C. I. and Cox, A. D. (2002). Ras mediates radioresistance through both phosphatidylinositol 3-kinase-dependent and Raf-dependent but mitogen-activated protein kinase/extracellular signal-regulated kinase kinase-independent signaling pathways. Cancer Res. 62: 4142-4150.
Bivona, T. G., Perez De Castro, I., Ahearn, I. M., Grana, T.M., Chiu, V. K., Lockyer, P. J., Cullen, P. J., Pellicer, A., Cox, A. D. and Philips, M. R. (2003). Phospholipase Cgamma activates Ras on the Golgi apparatus by means of RasGRP1. Nature. 424: 694-698.
Grana, T.M., Sartor, C. I. and Cox, A. D. (2003). Epidermal growth factor receptor autocrine signaling in RIE-1 cells transformed by the Ras oncogene enhances radiation resistance. Cancer Res. 63: 7807-7814.
Grevengoed, E.E., Loureiro, J. J., Jesse, T. L. and Peifer, M. (2001). Abelson kinase regulates epithelial morphogenesis in Drosophila. J Cell Biol. 155: 1185-1198.
McCartney, B. M., McEwen, D. G., Grevengoed, E.E., Maddox, P., Bejsovec, A. and Peifer, M. (2001). Drosophila APC2 and Armadillo participate in tethering mitotic spindles to cortical actin. Nat Cell Biol. 3: 933-938.
Akong, K., Grevengoed, E.E., Price, M. H., McCartney, B. M., Hayden, M. A., DeNofrio, J. C. and Peifer, M. (2002). Drosophila APC2 and APC1 play overlapping roles in wingless signaling in the embryo and imaginal discs. Dev Biol. 250: 91-100.
Grevengoed, E.E., Fox, D. T., Gates, J. and Peifer, M. (2003). Balancing different types of actin polymerization at distinct sites: roles for Abelson kinase and Enabled. J Cell Biol. 163: 1267-1279.
Grevengoed, E.E. and Peifer, M. (2003). Cytoskeletal connections: building strong cells in new ways. Curr Biol. 13: R568-570.
Ning, S., Hahn, A.M., Huye, L. E. and Pagano, J. S. (2003). Interferon regulatory factor 7 regulates expression of Epstein-Barr virus latent membrane protein 1: a regulatory circuit. J Virol. 77: 9359-9368.
Hahn, A.M., Huye, L. E., Ning, S., Webster-Cyriaque, J. and Pagano, J. S. (2005). Interferon regulatory factor 7 is negatively regulated by the Epstein-Barr virus immediate-early gene, BZLF-1. J Virol. 79: 10040-10052.
Sunnarborg, S. W., Hinkle, C.L., Stevenson, M., Russell, W. E., Raska, C. S., Peschon, J. J., Castner, B. J., Gerhart, M. J., Paxton, R. J., Black, R. A. and Lee, D. C. (2002). Tumor necrosis factor-alpha converting enzyme (TACE) regulates epidermal growth factor receptor ligand availability. J Biol Chem. 277: 12838-12845.
Lee, D. C., Sunnarborg, S. W., Hinkle, C.L., Myers, T. J., Stevenson, M. Y., Russell, W. E., Castner, B. J., Gerhart, M. J., Paxton, R. J., Black, R. A., Chang, A. and Jackson, L. F. (2003). TACE/ADAM17 processing of EGFR ligands indicates a role as a physiological convertase. Ann N Y Acad Sci. 995: 22-38.
Hinkle, C.L., Sunnarborg, S. W., Loiselle, D., Parker, C. E., Stevenson, M., Russell, W. E. and Lee, D. C. (2004). Selective roles for tumor necrosis factor alpha-converting enzyme/ADAM17 in the shedding of the epidermal growth factor receptor ligand family: the juxtamembrane stalk determines cleavage efficiency. J Biol Chem. 279: 24179-24188.
Sar, F., Lindsey-Boltz, L. A., Subramanian, D., Croteau, D. L., Hutsell, S.Q., Griffith, J. D. and Sancar, A. (2004). Human claspin is a ring-shaped DNA-binding protein with high affinity to branched DNA structures. J Biol Chem. 279: 39289-39295.
Hutsell, S.Q. and Sancar, A. (2005). Nucleotide excision repair, oxidative damage, DNA sequence polymorphisms, and cancer treatment. Clin Cancer Res. 11: 1355-1357
Joyce, P.L. and Cox, A. D. (2003). Rac1 and Rac3 are targets for geranylgeranyltransferase I inhibitor-mediated inhibition of signaling, transformation, and membrane ruffling. Cancer Res. 63: 7959-7967.
Keller, P.J., Gable, C. M., Wing, M.R. and Cox, A. D. (2005). Rac3-mediated transformation requires multiple effector pathways. Cancer Res. 65: 9883-90
Fiordalisi, J.J., Keller, P.J. and Cox, A.D. (2005). PRL tyrosine phosphatases regulate rho family GTPases to promote invasion and motility. Cancer Res. 66: 3153-3161.
Keller, P.J., Fiordalisi, J.J., Berzat, A.C. and Cox, A.D. (2005). Visual monitoring of post-translational lipid modifications using EGFP-GTPase probes in live cells. Methods. 37: 131-137.
Lambert, J.M., Karnoub, A. E., Graves, L. M., Campbell, S. L. and Der, C. J. (2002). Role of MLK3-mediated activation of p70 S6 kinase in Rac1 transformation. J Biol Chem. 277: 4770-4777.
Lambert, J.M., Lambert, Q. T., Reuther, G. W., Malliri, A., Siderovski, D. P., Sondek, J., Collard, J. G. and Der, C. J. (2002). Tiam1 mediates Ras activation of Rac by a PI(3)K-independent mechanism. Nat Cell Biol. 4: 621-625.
Baines, A.T., Lim, K.H., Shields, J.M., Campbell, P.M., Lambert, J.M., Counter, C.M., Der, C.J. and Cox, A.D. (2005). Use of retrovirus expression of interfering RNA to determine the contribution of activated K-Ras and Ras effector expression to Human Tumor Cell Growth. Methods Enzymol., 407, 556-574.
Morrison, J.A., Klingelhutz, A. J. and Raab-Traub, N. (2003). Epstein-Barr virus latent membrane protein 2A activates beta-catenin signaling in epithelial cells. J Virol. 77: 12276-12284.
Morrison, J.A., Gulley, M. L., Pathmanathan, R. and Raab-Traub, N. (2004). Differential signaling pathways are activated in the Epstein-Barr virus-associated malignancies nasopharyngeal carcinoma and Hodgkin lymphoma. Cancer Res. 64: 5251-5260.
Morrison, J.A. and Raab-Traub, N. (2005). Roles of the ITAM and PY motifs of Epstein-Barr virus latent membrane protein 2A in the inhibition of epithelial cell differentiation and activation of {beta}-catenin signaling. J Virol. 79: 2375-2382.
Unsal-Kacmaz, K, Mullen, T.E., Kaufmann, W.K. and Sancar, A. (2005) Timeless connects the human circadian clock and cell cycle checkpoints. Mol Cell Biol. 25: 3109-16.
Zhous T., Chou J., Simpon D.A., Zhou Y., Mullen T.E., Medeiros M., Bushel P.R., Paules R.S., Yang X., Hurban P., Lobenhofer E.K., Kaufmann W.K. (2005) Profiles of global gene expression in ionizing radiation-damaged human diploid fibroblasts reveal synchronization behind the G1 checkpoint in a G0-like state of quiescence. (submitted)
Zhou T.*, Chou J.*, Mullen T.E.*, Zhou Y., Simpson D.A., Li L., Bushel P.R., Paules R.S., Kaufmann W.K. (2005) A method to distinguish active trans-repression of genotoxin-induced cellular injury from passive synchronization behind cell cycle checkpoints. (manuscript in preparation, *contributed equally)
Dong J., Koseoglu M., Mullen T.E., Marzluff W.F. (2005) Two S-phase proteins, E2F1 and SLBP, are regulated during the mammalian cell cycle by similar pathways. (submitted: Molecular and Cellular Biology)
Lee, D. C., Sunnarborg, S. W., Hinkle, C. L., Myers, T. J., Stevenson, M. Y., Russell, W. E., Castner, B. J., Gerhart, M. J., Paxton, R. J., Black, R. A., Chang, A. and Jackson, L. F. (2003). TACE/ADAM17 processing of EGFR ligands indicates a role as a physiological convertase. Ann N Y Acad Sci. 995: 22-38.
Decristofaro, M. F., Betz, B. L., Rorie, C.J., Reisman, D. N., Wang, W. and Weissman, B. E. (2001). Characterization of SWI/SNF protein expression in human breast cancer cell lines and other malignancies. J Cell Physiol. 186: 136-145.
Rorie, C.J., Thomas, V. D., Chen, P., Pierce, H. H., O'Bryan, J. P. and Weissman, B. E. (2004). The Ews/Fli-1 fusion gene switches the differentiation program of neuroblastomas to Ewing sarcoma/peripheral primitive neuroectodermal tumors. Cancer Res. 64: 1266-1277.
Rorie, C.J. and Weissman, B. E. (2004). The Ews/Fli-1 fusion gene changes the status of p53 in neuroblastoma tumor cell lines. Cancer Res. 64: 7288-7295.
Clark, G. J., Drugan, J. K., Rossman, K.L., Carpenter, J. W., Rogers-Graham, K., Fu, H., Der, C. J. and Campbell, S. L. (1997). 14-3-3 zeta negatively regulates raf-1 activity by interactions with the Raf-1 cysteine-rich domain. J Biol Chem. 272: 20990-20993.
Whitehead, I. P., Campbell, S., Rossman, K.L. and Der, C. J. (1997). Dbl family proteins. Biochem Biophys Acta. 1332: F1-23.
Campbell, S. L., Khosravi-Far, R., Rossman, K.L., Clark, G. J. and Der, C. J. (1998). Increasing complexity of Ras signaling. Oncogene. 17: 1395-1413.
Khosravi-Far, R., Campbell, S., Rossman, K.L. and Der, C. J. (1998). Increasing complexity of Ras signal transduction: involvement of Rho family proteins. Adv Cancer Res. 72: 57-107.
Zohn, I. M., Campbell, S. L., Khosravi-Far, R., Rossman, K.L. and Der, C. J. (1998). Rho family proteins and Ras transformation: the RHOad less traveled gets congested. Oncogene. 17: 1415-1438.
Whitehead, I. P., Lambert, Q. T., Glaven, J. A., Abe, K., Rossman, K. L., Mahon, G. M., Trzaskos, J. M., Kay, R., Campbell, S. L. and Der, C. J. (1999). Dependence of Dbl and Dbs transformation on MEK and NF-kappaB activation. Mol Cell Biol. 19: 7759-7770.
Abe, K., Rossman, K.L., Liu, B., Ritola, K. D., Chiang, D., Campbell, S. L., Burridge, K. and Der, C. J. (2000). Vav2 is an activator of Cdc42, Rac1, and RhoA. J Biol Chem. 275: 10141-10149.
Karnoub, A. E., Worthylake, D. K., Rossman, K.L., Pruitt, W. M., Campbell, S. L., Sondek, J. and Der, C. J. (2001). Molecular basis for Rac1 recognition by guanine nucleotide exchange factors. Nat Struct Biol. 8: 1037-1041.
Rossman, K.L., Worthylake, D. K., Snyder, J. T., Cheng, L., Whitehead, I. P. and Sondek, J. (2002). Functional analysis of cdc42 residues required for guanine nucleotide exchange. J Biol Chem. 277: 50893-50898.
Snyder, J. T., Worthylake, D. K., Rossman, K. L., Betts, L., Pruitt, W. M., Siderovski, D. P., Der, C. J. and Sondek, J. (2002). Structural basis for the selective activation of Rho GTPases by Dbl exchange factors. Nat Struct Biol. 9: 468-475.
Solski, P.A., Wilder, R.S., Rossman, K.L., Sondek, J., Cox, A.D., Campbell, S.L. and Der, C.J. (2004). Requirement for C-terminal sequences in regulation of Ect2 guanine nucleotide exchange specificity and transformation. J. Biol. Chem. 24: 25226-25233.
Rossman, K.L., Der, C.J and Sondek, J. (2005). Abstract GEF means go: turning on RHO GTPases with guanine nucleotide-exchange factors. Nat Rev Mol Cell Biol. 2: 167-80.
Wennerberg, K., Rossman, K.L., and Der, C.J. (2005). The Ras superfamily at a glance. J Cell Sci. 118: 843-846.
Mitin, N.Y., Rossman, K.L. and Der, C.J. (2005). Signaling interplay in Ras superfamily function. Curr Biol. 15 :R563-574.
Yohe, M.E., Rossman, K.L., Gardner, O.S., Karnoub, A.E., Snyder, J.T., Gershburg, S., Graves, L.M., Der, C.J. and Sondek, J. (2007). Auto-inhibition of the Dbl-family protein Tim by an N-terminal helical motif. J Biol Chem. 2007 Mar 2; [Epub ahead of print] .
Sandgren, E. P., Schroeder, J.A., Qui, T. H., Palmiter, R. D., Brinster, R. L. and Lee, D. C. (1995). Inhibition of mammary gland involution is associated with transforming growth factor alpha but not c-myc-induced tumorigenesis in transgenic mice. Cancer Res. 55: 3915-3927.
Berkowitz, E. A., Seroogy, K. B., Schroeder, J.A., Russell, W. E., Evans, E. P., Riedel, R. F., Phillips, H. K., Harrison, C. A., Lee, D. C. and Luetteke, N. C. (1996). Characterization of the mouse transforming growth factor alpha gene: its expression during eyelid development and in waved 1 tissues. Cell Growth Differ. 7: 1271-1282.
Schroeder, J.A. and Lee, D. C. (1997). Transgenic mice reveal roles for TGFalpha and EGF receptor in mammary gland development and neoplasia. J Mammary Gland Biol Neoplasia. 2: 119-129.
Schroeder, J.A. and Lee, D. C. (1998). Dynamic expression and activation of ERBB receptors in the developing mouse mammary gland. Cell Growth Differ. 9: 451-464.
Schroeder, J.A., Troyer, K. L. and Lee, D. C. (2000). Cooperative induction of mammary tumorigenesis by TGFalpha and Wnts. Oncogene. 19: 3193-3199.
Schroeder, J.A., Jackson, L. F., Lee, D. C. and Camenisch, T. D. (2003). Form and function of developing heart valves: coordination by extracellular matrix and growth factor signaling. J Mol Med. 81: 392-403.
Wang, L., Dittmer, D.P., Tomlinson, C.C., Fakharim, F.D. and Damania, B. (2006). Immortalization of primary endothelial cells by the K1 protein of Kaposi's sarcoma-associated herpesvirus. Cancer Res. 66: 3658-3666.
Wang, L., Wakisaka, N., Tomlinson, C.C., DeWire, S.M., Krall, S., Pagano, J.,S. and Damania, B. (2004). The Kaposi's sarcoma-associated herpesvirus (KSHV/HHV-8) K1 protein induces expression of angiogenic and invasion factors.
Cancer Res. 64: 2774-2781.
Tomlinson, C.C. and Damania, B. (2004). The K1 protein of Kaposi's sarcoma-associated herpesvirus activates the Akt signaling pathway. J Virol. 78: 1918-1927.
Fiordalisi, J. J., Johnson, R. L., 2nd, Ulku, A.S., Der, C. J. and Cox, A. D. (2001). Mammalian expression vectors for Ras family proteins: generation and use of expression constructs to analyze Ras family function. Methods Enzymol. 332: 3-36.
McFall, A., Ulku, A.S., Lambert, Q.T. and Der, C.J. (2001). Ras inhibition of anoikis by novel effector function. Mol. Cell. Biol., 21, 5488-5499.
Ulku, A.S. and Der, C. J. (2003). Ras signaling, deregulation of gene expression and oncogenesis. Cancer Treat Res. 115: 189-208.
Ulku, A. S., Schafer, R. and Der, C. J. (2003). Essential role of Raf in Ras transformation and deregulation of matrix metalloproteinase expression in ovarian epithelial cells. Mol Cancer Res. 1: 1077-1088.
Vos, M.D., Ellis, C.A., Elam, C., Ulku, A.S., Taylor, B.J. and Clark, G.J. (2003). RASSF2 is a novel K-Ras-specific effector and potential tumor suppressor. J. Biol. Chem. 278, 28045-28051.
Collette, J., Ulku, A.S., Der, C.J., Jones, A. and Erickson, A. H. (2004). Enhanced cathepsin L expression is mediated by different Ras effector pathways in fibroblasts and epithelial cells. Int J Cancer. 112: 190-199.
Eckert, L. B., Repasky, G. A., Ulku, A.S., McFall, A., Zhou, H., Sartor, C. I. and Der, C. J. (2004). Involvement of Ras activation in human breast cancer cell signaling, invasion, and anoikis. Cancer Res. 64: 4585-4592.
Booden, M.A., Ulku, A.S. and Der, C.J. (2005). Cellular assays of oncogene transformation. In Cell Biology: A Laboratory Handbook, Volume 1. J. Celis, N. Carter, K. Simons, V. Small and T. Hunter, editors. Third Edition. Academic Press, San Diego, CA
Campbell, P.M., Singh, A., Williams, F.J., Frantz, K., Ulku, A.S., Kelley, G.G. and Channing J. Der (2006). Genetic and pharmacologic dissection of Ras effector utilization in oncogenesis. Methods Enzymol., in press.
Cayirlioglu, P., Ward, W. O., Silver Key, S. C. and Duronio, R. J. (2003). Transcriptional repressor functions of Drosophila E2F1 and E2F2 cooperate to inhibit genomic DNA synthesis in ovarian follicle cells. Mol Cell Biol. 23: 2123-2134.
Williams, J.G., Drugan, J.K., Yi, G.S., Clark, G.J., Der, C.J. and Campbell, S. L. (2000). Elucidation of binding determinants and functional consequences of Ras/Raf-cysteine-rich domain interactions. J Biol Chem. 275: 22172-22179.
Williams, J.G., Pappu, K. and Campbell, S.L. (2003). Structural and biochemical studies of p21Ras S-nitrosylation and nitric oxide-mediated guanine nucleotide exchange. Proc Natl Acad Sci U S A. 100: 6376-6381.
Gao, G., Williams, J.G. and Campbell, S.L. (2004). Protein-protein interaction analysis by nuclear magnetic resonance spectroscopy. Methods Mol Biol. 261: 79-92.
Thapar, R., Williams, J.G. and Campbell, S.L. (2004). NMR characterization of full-length farnesylated and non-farnesylated H-Ras and its implications for Raf activation. J Mol Biol. 343: 1391-1408.
Nishioka G.M., Borikova A.L., Sokolik C.W. (2006). High resolution microprinting with an electrospray printer. FASEB Journal 20 (4): A527-A527 Part 1 (conference poster presentation)
Brannon, A.R., Maresca, J.A., Boeke, J.D., Basrai, M.A. and McBride, A.A. (2005). Reconstitution of papillomavirus E2-mediated plasmid maintenance in Saccharomyces cerevisiae by the Brd4 bromodomain protein. Proc Natl Acad Sci USA. 102(8): 2998-3003.
Barrick C.J., Yu, M., Chao, H.H. andThreadgill, D.W. (2008).Chronic pharmacologic inhibition of EGFR leads to cardiac dysfunction in C57BL/6J mice. Toxicology and Applied Pharmacology. 228(3):315-325.
Goldstein, B.G., Chao, H.H., Yang, Y., Yermolina, Y.A., Tobias, J.W. and Katz, J.P.(2007). Overexpression of Kruppel-like factor 5 in esophageal epithelia in vivo leads to increased proliferation in basal but not suprabasal cells. American Journal of Physiology-Gastrointestinal and Liver Physiology. 292(6):G1784.
Yang, Y., Goldstein, B.G., Chao, H.H. and Katz, J.P. (2005). KLF4 and KLF5 Regulate Proliferation, Apoptosis, and Invasion in Esophageal Cancer Cells. Cancer Biology and Therapy. 4(11): 1216-1221.
Katz, J.P., Perreault, N., Goldstein, B.G., Chao, H.H., Ferraris, R.P. and Kaestner, K.H. (2004). Foxl1 null mice have abnormal intestinal epithelia, postnatal growth retardation and defective intestinal glucose uptake. American Journal of Physiology-Gastrointestinal and Liver Physiology. 287:G856-G864
Hall, J.R., Lee, H.O., Bunker, B.D., Dorn, E.S., Rogers, G.C., Duronio, R.J. and Cook JG. (2008). Cdt and Cdc6 are destabilized by rereplication-induced DNA damage. J Biol Chem. 283(37): 25356-25363.
Klose, R.J., Gardner K.E., Liang, G., Erdjument-Bromage, H., Tempst, P. and Zhang, Y. (2007). Demethylation of histone H3K36 and H3K9 by Rph1: a vestige of an H3K9 methylation system in Saccharomyces cerevisiae? Mol Cell Biol. 27: 3951-3961.
Liang, G., Klose, R.J., Gardner, K.E. and Zhang, Y. (2007). Yeast Jhd2p is a histone H3 Lys4 trimethyl demethylase. Nat Struct Mol Biol. 14(3): 243-245
Clifford, D.M., Stark, K.E., Gardner, K.E., Hoffman-Benning, S. and Brush, G.S. (2005). Mechanistic insight into the Cdc28-related protein kinase Ime2 through analysis of replication protein A phosphorylation. 4(12): 1826-1833.
Laurencon A., Orme C.M., Peters H.K., Boulton C.L., Vladar E.K., Langley S.A., Bakis E.P., Harris D.T., Harris N.J., Wayson S.M., Hawley R.S., Burtis K.C.. A large-scale screen for mutagen-sensitive loci in Drosophila. Genetics 2004 167(1):217--231
Grobin, A.C., Heenan, E.J., Lieberman, J.A., and Morrow, A.L. (2003). Perinatal neurosteriod levels influence GABAergic interneuron localization in adult rat prefrontal cortex. Journal of Neuroscience. 23: 1832-1839.
Titterington, JS, TK Nun and AL Passarelli. ( 2003).Functional dissection of the baculovirus late expression factor-8 gene: Sequence requirements for late gene promoter activation. Journal of General Virology. 84: 1817-1826
Nun TK, DJ Kroll, NH Oberlies, DD Soejarto, RJ Case, P Piskaut, T Matainaho, C Hilscher, L Wang, DP Dittmer, SJ Gao, and B Damania.(2007). Development of a fluorescence-based assay to screen antiviral drugs against Kaposi’s Sarcoma-associated Herpesvirus. Molecular Cancer Therapeutics. 6 (8): 2360-70.