Papers associated with germ cell (and npm1)

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	A cyclin-dependent kinase-mediated phosphorylation switch of disordered protein condensation., Valverde JM., Nat Commun. October 9, 2023; 14 (1): 6316.
	Molecular dissection of condensin II-mediated chromosome assembly using in vitro assays., Yoshida MM., Elife. August 19, 2022; 11
	Component analysis of nucleolar protein compartments using Xenopus laevis oocytes., Lavering ED., Dev Growth Differ. August 1, 2022; 64 (6): 306-317.
	Nucleoplasmin is a limiting component in the scaling of nuclear size with cytoplasmic volume., Chen P., J Cell Biol. December 2, 2019; 218 (12): 4063-4078.
	Real-time observation of nucleoplasmin-mediated DNA decondensation and condensation reveals its specific functions as a chaperone., Huo XM., Biochim Biophys Acta Gene Regul Mech. August 1, 2018; 1861 (8): 743-751.
	Dual roles for ATP in the regulation of phase separated protein aggregates in Xenopus oocyte nucleoli., Hayes MH., Elife. July 17, 2018; 7
	A NuRD Complex from Xenopus laevis Eggs Is Essential for DNA Replication during Early Embryogenesis., Christov CP., Cell Rep. February 27, 2018; 22 (9): 2265-2278.
	Chromosomal passenger complex hydrodynamics suggests chaperoning of the inactive state by nucleoplasmin/nucleophosmin., Hanley ML., Mol Biol Cell. June 1, 2017; 28 (11): 1444-1456.
	A Quantitative Characterization of Nucleoplasmin/Histone Complexes Reveals Chaperone Versatility., Fernández-Rivero N., Sci Rep. August 25, 2016; 6 32114.
	Expression and purification of the full murine NPM2 and study of its interaction with protamines and histones., Ellard K., Biochem Biophys Rep. March 31, 2016; 6 165-171.
	Hermes (Rbpms) is a Critical Component of RNP Complexes that Sequester Germline RNAs during Oogenesis., Aguero T., J Dev Biol. March 1, 2016; 4 (1):
	Developmentally Regulated Post-translational Modification of Nucleoplasmin Controls Histone Sequestration and Deposition., Onikubo T., Cell Rep. March 17, 2015; 10 (10): 1735-1748.
	Purification of nuclear localization signal-containing proteins and its application to investigation of the mechanisms of the cell division cycle., Christodoulou A., Small GTPases. January 1, 2015; 6 (1): 20-7.
	Phosphorylation and arginine methylation mark histone H2A prior to deposition during Xenopus laevis development., Wang WL., Epigenetics Chromatin. September 6, 2014; 7 22.
	Deep proteomics of the Xenopus laevis egg using an mRNA-derived reference database., Wühr M., Curr Biol. July 7, 2014; 24 (13): 1467-1475.
	Maintenance of multipotency in human dermal fibroblasts treated with Xenopus laevis egg extract requires exogenous fibroblast growth factor-2., Kole D., Cell Reprogram. February 1, 2014; 16 (1): 18-28.
	A nuclear F-actin scaffold stabilizes ribonucleoprotein droplets against gravity in large cells., Feric M., Nat Cell Biol. October 1, 2013; 15 (10): 1253-9.
	The nuclear F-actin interactome of Xenopus oocytes reveals an actin-bundling kinesin that is essential for meiotic cytokinesis., Samwer M., EMBO J. July 3, 2013; 32 (13): 1886-902.
	Structure of the arginine methyltransferase PRMT5-MEP50 reveals a mechanism for substrate specificity., Ho MC., PLoS One. January 1, 2013; 8 (2): e57008.
	Chromatin-bound NLS proteins recruit membrane vesicles and nucleoporins for nuclear envelope assembly via importin-α/β., Lu Q., Cell Res. November 1, 2012; 22 (11): 1562-75.
	Protein arginine methyltransferase Prmt5-Mep50 methylates histones H2A and H4 and the histone chaperone nucleoplasmin in Xenopus laevis eggs., Wilczek C., J Biol Chem. December 9, 2011; 286 (49): 42221-42231.
	Active liquid-like behavior of nucleoli determines their size and shape in Xenopus laevis oocytes., Brangwynne CP., Proc Natl Acad Sci U S A. March 15, 2011; 108 (11): 4334-9.
	Nucleoplasmin binds histone H2A-H2B dimers through its distal face., Ramos I., J Biol Chem. October 29, 2010; 285 (44): 33771-8.
	A mechanism for histone chaperoning activity of nucleoplasmin: thermodynamic and structural models., Taneva SG., J Mol Biol. October 23, 2009; 393 (2): 448-63.
	Nucleolar protein B23/nucleophosmin regulates the vertebrate SUMO pathway through SENP3 and SENP5 proteases., Yun C., J Cell Biol. November 17, 2008; 183 (4): 589-95.
	Antibody microarray analyses of signal transduction protein expression and phosphorylation during porcine oocyte maturation., Pelech S., J Proteome Res. July 1, 2008; 7 (7): 2860-71.
	Cdk11 is a RanGTP-dependent microtubule stabilization factor that regulates spindle assembly rate., Yokoyama H., J Cell Biol. March 10, 2008; 180 (5): 867-75.
	Nucleoplasmin facilitates reprogramming and in vivo development of bovine nuclear transfer embryos., Betthauser JM., Mol Reprod Dev. August 1, 2006; 73 (8): 977-86.
	Xp54 and related (DDX6-like) RNA helicases: roles in messenger RNP assembly, translation regulation and RNA degradation., Weston A., Nucleic Acids Res. June 12, 2006; 34 (10): 3082-94.
	TPX2 is required for postmitotic nuclear assembly in cell-free Xenopus laevis egg extracts., O'Brien LL., J Cell Biol. June 5, 2006; 173 (5): 685-94.
	The characterization of amphibian nucleoplasmins yields new insight into their role in sperm chromatin remodeling., Frehlick LJ., BMC Genomics. April 28, 2006; 7 99.
	Requirement of the protein B23 for nucleolar disassembly induced by the FRGY2a family proteins., Gonda K., J Biol Chem. March 24, 2006; 281 (12): 8153-60.
	Chromatin decondensation and nuclear reprogramming by nucleoplasmin., Tamada H., Mol Cell Biol. February 1, 2006; 26 (4): 1259-71.
	Nucleoplasmin-mediated unfolding of chromatin involves the displacement of linker-associated chromatin proteins., Ramos I., Biochemistry. June 14, 2005; 44 (23): 8274-81.
	Pontin and Reptin regulate cell proliferation in early Xenopus embryos in collaboration with c-Myc and Miz-1., Etard C., Mech Dev. April 1, 2005; 122 (4): 545-56.
	Nucleoplasmin regulates chromatin condensation during apoptosis., Lu Z., Proc Natl Acad Sci U S A. February 22, 2005; 102 (8): 2778-83.
	DNA replication checkpoint control of Wee1 stability by vertebrate Hsl7., Yamada A., J Cell Biol. December 6, 2004; 167 (5): 841-9.
	Mutation of the small acidic tract A1 drastically reduces nucleoplasmin activity., Salvany L., FEBS Lett. October 22, 2004; 576 (3): 353-7.
	Nucleoplasmin: a nuclear chaperone., Prado A., Biochem Cell Biol. August 1, 2004; 82 (4): 437-45.
	Xenopus Cdc14 alpha/beta are localized to the nucleolus and centrosome and are required for embryonic cell division., Kaiser BK., BMC Cell Biol. July 13, 2004; 5 27.
	Activation mechanism of the nuclear chaperone nucleoplasmin: role of the core domain., Bañuelos S., J Mol Biol. November 28, 2003; 334 (3): 585-93.
	Interaction of nucleoplasmin with core histones., Arnan C., J Biol Chem. August 15, 2003; 278 (33): 31319-24.
	Roles of NPM2 in chromatin and nucleolar organization in oocytes and embryos., Burns KH., Science. April 25, 2003; 300 (5619): 633-6.
	Nucleoplasmin interaction with protamines. Involvement of the polyglutamic tract., Prieto C., Biochemistry. June 18, 2002; 41 (24): 7802-10.
	Maintenance of nucleolar machineries and pre-rRNAs in remnant nucleolus of erythrocyte nuclei and remodeling in Xenopus egg extracts., Verheggen C., Exp Cell Res. September 10, 2001; 269 (1): 23-34.
	Structural and functional properties of Escherichia coli-derived nucleoplasmin. A comparative study of recombinant and natural proteins., Hierro A., Eur J Biochem. March 1, 2001; 268 (6): 1739-48.
	Nucleoplasmin binds to nuclear pore filaments and accumulates in specific regions of the nucleolar cortex., Andrade R., Chromosoma. February 1, 2001; 109 (8): 545-50.
	Heterogeneity in nuclear transport does not affect the timing of DNA synthesis in quiescent mammalian nuclei induced to replicate in Xenopus egg extracts., Sun WH., Cell Prolif. February 1, 2001; 34 (1): 55-67.
	Reconstitution of licensed replication origins on Xenopus sperm nuclei using purified proteins., Gillespie PJ., BMC Biochem. January 1, 2001; 2 15.
	The ribosomal RNA processing machinery is recruited to the nucleolar domain before RNA polymerase I during Xenopus laevis development., Verheggen C., J Cell Biol. April 17, 2000; 149 (2): 293-306.

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