Chow, KH, Factor, RE, and Ullman, KS The Nuclear Envelope Environment and Its Cancer Connections, in preparation.
Shankaran, S, Mackay, DR, and Ullman KS (2011) A Time Lapse Imaging Assay to Study Nuclear Envelope Breakdown, Methods in Molecular Biology, in press.
Mackay, D. and Ullman, KS (2011) Coordinating nuclear pore assembly with abscission timing. Nucleus, 2:283-288.
Powers, MA#, Fay, MM #, Factor, RE, Welm, AL*, Ullman, KS*(2011) PRMT5 accelerates tumor growth by arginine methylation of the tumor suppressor PDCD4, Cancer Research, in press [ # * equal contribution]
Mackay, D*, Makise, M*, and Ullman, KS (2010b) Defects in nuclear pore assembly lead to activation of an Aurora B-mediated abscission checkpoint. J. of Cell Biology, 191:923-31 [*contributed equally]
Mackay, DR, Ullman KS, and Rodesch, CK (2010a) Time-lapse imaging of Mitosis After siRNA Transfection. J. of Visualized Experiments doi:10.3792/1878
Mackay D, Elgort S, Ullman, KS (2009) The nucleoporin Nup153 has separable roles in both early mitotic progression and the resolution of mitosis. Mol Biol Cell, 20:1652–60
Lim R, Ullman KS, Fahrenkrog B (2008) Biology and biophysics of the nuclear pore complex and its components. Int Rev Cell Mol Biol, 267:299–342
Higa M, Alam S, Sundquist W, Ullman, KS (2007) Molecular characterization of the Ran-binding zinc finger domain. J Biol Chem, 282:17090–100
Ball JR*, Dimaano C*, Bilak A, Zundel MT, Ullman KS (2007) Sequence preference in RNA recognition by the nucleoporin Nup153. J Biol Chem 282:8734–40
*These authors contributed equally
Higa M, Ullman KS, Prunsuke AJ (2006) Studying nuclear disassembly in vitro using Xenopus egg extract. Methods 39:284–90
Paulillo SM, Powers MA, Ullman KS, Fahrenkrog B (2006) Changes in nucleoporin domain topology in response to chemical effectors. J Mol Biol 363:39–50
Prunuske A, Liu J, Elgort S, Joseph J, Dasso M, Ullman KS (2006) Nuclear envelope breakdown is coordinated by both Nup358/RanBP2 and Nup153, two nucleoporins with zinc finger modules. Mol Biol Cell 15:1991–2002
Prunuske A, Ullman KS (2006) The nuclear envelope: form and reformation. Curr Opin Cell Biol 18:108–16
Ball JR, Ullman KS (2005) Versatility at the nuclear pore complex: lessons learned from the nucleoporin Nup153. Chromosoma 114:319–330
Paulillo SM, Phillips EM, Koser J, Sauder U, Ullman KS, Powers MA, Fahrenkrog B (2005) Nucleoporin domain topology is linked to the transport status of the nuclear pore complex. J Mol Biol 351:784–798
Ball JR, Dimaano C, Ullman KS (2004) The RNA binding domain within the nucleoporin Nup153 associates preferentially with single-stranded RNA. RNA 10:19–27
Dimaano C, Ullman KS (2004) Nucleocytoplasmic transport: Integrating mRNA production and turnover with export through the nuclear pore. Mol Cell Biol 24:3069–76
Griffis E, Craige B, Dimaano C, Ullman KS, Powers MA (2004) Distinct functional domains within nucleoporins Nup153 and Nup98 mediate transcription-dependent mobility. Mol Biol Cell 15:1991–2002
Liu J, Prunuske A.J, Fager AM, Ullman KS (2003) The COPI complex functions in nuclear envelope breakdown and is recruited by the nucleoporin Nup153. Dev Cell 5:487–98
Fahrenkrog B, Maco B, Fager A, Koser J, Sauder U, Ullman KS, Aebi U (2002) Domain-specific antibodies reveal multiple-site topology of Nup153 within the nuclear pore complex. J Struct Biol 140:254–67
Ullman KS (2002) RNA export: searching for mRNA identity. Curr Biol 12:R461
Dimaano C, Ball J, Prunuske A, Ullman KS (2001) RNA association defines a functionally conserved domain in Nup153. J Biol Chem 276:45349
Duricka D, Ullman KS (2001) Analysis of RNA export using xenopus oocytes. In Current protocols in cell biology, ed. J.S. Bonifacino, M. Dasso, J.B. Harford, J. Lippincott-Schwartz, and K.M. Yamada, 11.14.1–11.14.13. New York: John Wiley & Sons.
Vielhaber E, Duricka D, Ullman KS, Virshup D (2001) Nuclear export of mammalian PERIOD proteins. J Biol Chem 276:45921
Ullman KS, Shah S, Powers MA, Forbes DJ (1999) Nup153 plays a critical role in multiple types of nuclear export. Mol Biol Cell 10:649