Papers associated with cell part (and rcc1)

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	Kap-β2/Transportin mediates β-catenin nuclear transport in Wnt signaling., Hwang WY., Elife. October 27, 2022; 11
	The nucleoporin Nup50 activates the Ran guanine nucleotide exchange factor RCC1 to promote NPC assembly at the end of mitosis., Holzer G., EMBO J. December 1, 2021; 40 (23): e108788.
	RanBP1 controls the Ran pathway in mammalian cells through regulation of mitotic RCC1 dynamics., Yau KC., Cell Cycle. August 1, 2020; 19 (15): 1899-1916.
	Characterization of a Protein Phosphatase Type-1 and a Kinase Anchoring Protein in Plasmodium falciparum., Lenne A., Front Microbiol. October 31, 2018; 9 2617.
	Subcellular scaling: does size matter for cell division?, Heald R., Curr Opin Cell Biol. June 1, 2018; 52 88-95.
	RCC1 regulates inner centromeric composition in a Ran-independent fashion., Zhang MS., Cell Cycle. January 1, 2018; 17 (6): 739-748.
	RanBP1 governs spindle assembly by defining mitotic Ran-GTP production., Zhang MS., Dev Cell. November 24, 2014; 31 (4): 393-404.
	Nucleosomal regulation of chromatin composition and nuclear assembly revealed by histone depletion., Zierhut C., Nat Struct Mol Biol. July 1, 2014; 21 (7): 617-25.
	Transportin acts to regulate mitotic assembly events by target binding rather than Ran sequestration., Bernis C., Mol Biol Cell. April 1, 2014; 25 (7): 992-1009.
	The centriolar satellite protein SSX2IP promotes centrosome maturation., Bärenz F., J Cell Biol. July 8, 2013; 202 (1): 81-95.
	The MRN-CtIP pathway is required for metaphase chromosome alignment., Rozier L., Mol Cell. March 28, 2013; 49 (6): 1097-107.
	Spatiotemporal control of microtubule nucleation and assembly using magnetic nanoparticles., Hoffmann C., Nat Nanotechnol. March 1, 2013; 8 (3): 199-205.
	Chromosomal gain promotes formation of a steep RanGTP gradient that drives mitosis in aneuploid cells., Hasegawa K., J Cell Biol. January 21, 2013; 200 (2): 151-61.
	Xtr, a plural tudor domain-containing protein, is involved in the translational regulation of maternal mRNA during oocyte maturation in Xenopus laevis., Ohgami H., Dev Growth Differ. August 1, 2012; 54 (6): 660-71.
	Mitotic spindle assembly around RCC1-coated beads in Xenopus egg extracts., Halpin D., PLoS Biol. December 1, 2011; 9 (12): e1001225.
	Nup98 regulates bipolar spindle assembly through association with microtubules and opposition of MCAK., Cross MK., Mol Biol Cell. March 1, 2011; 22 (5): 661-72.
	Subgroup II PAK-mediated phosphorylation regulates Ran activity during mitosis., Bompard G., J Cell Biol. September 6, 2010; 190 (5): 807-22.
	The nucleoporin Nup188 controls passage of membrane proteins across the nuclear pore complex., Theerthagiri G., J Cell Biol. June 28, 2010; 189 (7): 1129-42.
	Xtr, a plural tudor domain-containing protein, coexists with FRGY2 both in cytoplasmic mRNP particle and germ plasm in Xenopus embryo: its possible role in translational regulation of maternal mRNAs., Golam Mostafa M., Dev Growth Differ. August 1, 2009; 51 (6): 595-605.
	Replication initiation complex formation in the absence of nuclear function in Xenopus., Krasinska L., Nucleic Acids Res. April 1, 2009; 37 (7): 2238-48.
	Learning about cancer from frogs: analysis of mitotic spindles in Xenopus egg extracts., Cross MK., Dis Model Mech. January 1, 2009; 2 (11-12): 541-7.
	An in vitro nuclear disassembly system reveals a role for the RanGTPase system and microtubule-dependent steps in nuclear envelope breakdown., Mühlhäusser P., J Cell Biol. August 13, 2007; 178 (4): 595-610.
	Bub1 is essential for assembly of the functional inner centromere., Boyarchuk Y., J Cell Biol. March 26, 2007; 176 (7): 919-28.
	Xenopus tropicalis egg extracts provide insight into scaling of the mitotic spindle., Brown KS., J Cell Biol. March 12, 2007; 176 (6): 765-70.
	A centriole- and RanGTP-independent spindle assembly pathway in meiosis I of vertebrate oocytes., Dumont J., J Cell Biol. January 29, 2007; 176 (3): 295-305.
	Analysis of a RanGTP-regulated gradient in mitotic somatic cells., Kaláb P., Nature. March 30, 2006; 440 (7084): 697-701.
	Developmental and tissue expression of Xenopus laevis RPGR., Shu X., Invest Ophthalmol Vis Sci. January 1, 2006; 47 (1): 348-56.
	Histone H1 is essential for mitotic chromosome architecture and segregation in Xenopus laevis egg extracts., Maresca TJ., J Cell Biol. June 20, 2005; 169 (6): 859-69.
	Modulation of histone deposition by the karyopherin kap114., Mosammaparast N., Mol Cell Biol. March 1, 2005; 25 (5): 1764-78.
	Phosphorylation regulates the dynamic interaction of RCC1 with chromosomes during mitosis., Hutchins JR., Curr Biol. June 22, 2004; 14 (12): 1099-104.
	Phosphorylation of RCC1 in mitosis is essential for producing a high RanGTP concentration on chromosomes and for spindle assembly in mammalian cells., Li HY., Genes Dev. March 1, 2004; 18 (5): 512-27.
	Spatial and temporal control of nuclear envelope assembly by Ran GTPase., Clarke PR., Symp Soc Exp Biol. January 1, 2004; (56): 193-204.
	Mammalian RanBP1 regulates centrosome cohesion during mitosis., Di Fiore B., J Cell Sci. August 15, 2003; 116 (Pt 16): 3399-411.
	The Ran GTPase regulates kinetochore function., Arnaoutov A., Dev Cell. July 1, 2003; 5 (1): 99-111.
	A mechanism of coupling RCC1 mobility to RanGTP production on the chromatin in vivo., Li HY., J Cell Biol. March 3, 2003; 160 (5): 635-44.
	Targeting of RCC1 to chromosomes is required for proper mitotic spindle assembly in human cells., Moore W., Curr Biol. August 20, 2002; 12 (16): 1442-7.
	Ran binds to chromatin by two distinct mechanisms., Bilbao-Cortés D., Curr Biol. July 9, 2002; 12 (13): 1151-6.
	Separating centrosomes interact in the absence of associated chromosomes during mitosis in cultured vertebrate cells., Faruki S., Cell Motil Cytoskeleton. June 1, 2002; 52 (2): 107-21.
	Visualization of a Ran-GTP gradient in interphase and mitotic Xenopus egg extracts., Kalab P., Science. March 29, 2002; 295 (5564): 2452-6.
	The GTPase Ran regulates chromosome positioning and nuclear envelope assembly in vivo., Bamba C., Curr Biol. March 19, 2002; 12 (6): 503-7.
	XMog1, a nuclear ran-binding protein in Xenopus, is a functional homologue of Schizosaccharomyces pombe mog1p that co-operates with RanBP1 to control generation of Ran-GTP., Nicolás FJ., J Cell Sci. August 1, 2001; 114 (Pt 16): 3013-23.
	Chromatin docking and exchange activity enhancement of RCC1 by histones H2A and H2B., Nemergut ME., Science. May 25, 2001; 292 (5521): 1540-3.
	Chromatin-independent nuclear envelope assembly induced by Ran GTPase in Xenopus egg extracts., Zhang C., Science. May 26, 2000; 288 (5470): 1429-32.
	The nuclear import of RCC1 requires a specific nuclear localization sequence receptor, karyopherin alpha3/Qip., Talcott B., J Biol Chem. April 7, 2000; 275 (14): 10099-104.
	Evidence for distinct substrate specificities of importin alpha family members in nuclear protein import., Köhler M., Mol Cell Biol. November 1, 1999; 19 (11): 7782-91.
	Beyond nuclear transport. Ran-GTP as a determinant of spindle assembly., Kahana JA., J Cell Biol. September 20, 1999; 146 (6): 1205-10.
	A new role of ran GTPase., Nishimoto T., Biochem Biophys Res Commun. September 7, 1999; 262 (3): 571-4.
	Generation of GTP-bound Ran by RCC1 is required for chromatin-induced mitotic spindle formation., Carazo-Salas RE., Nature. July 8, 1999; 400 (6740): 178-81.
	Ran-GTP stabilises microtubule asters and inhibits nuclear assembly in Xenopus egg extracts., Zhang C., J Cell Sci. July 1, 1999; 112 ( Pt 14) 2453-61.
	Self-organization of microtubule asters induced in Xenopus egg extracts by GTP-bound Ran., Ohba T., Science. May 21, 1999; 284 (5418): 1356-8.

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