| Search Results |
Xenopus NEDD1 is required for microtubule organization in Xenopus egg extracts., Liu L, Wiese C., J Cell Sci. March 1, 2008; 121 (Pt 5): 578-89. 
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Xenopus Rbm9 is a novel interactor of XGld2 in the cytoplasmic polyadenylation complex., Papin C, Rouget C, Mandart E., FEBS J. February 1, 2008; 275 (3): 490-503.
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XMAP215 is a processive microtubule polymerase., Brouhard GJ, Stear JH, Noetzel TL, Al-Bassam J, Kinoshita K, Harrison SC, Howard J, Hyman AA., Cell. January 11, 2008; 132 (1): 79-88.
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XMAP215: a tip tracker that really moves., Asbury CL., Cell. January 11, 2008; 132 (1): 19-20.
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Xenbase: a Xenopus biology and genomics resource., Bowes JB, Snyder KA, Segerdell E, Gibb R, Jarabek C, Noumen E, Pollet N, Vize PD., Nucleic Acids Res. January 1, 2008; 36 (Database issue): D761-7.
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Xenopus microRNA genes are predominantly located within introns and are differentially expressed in adult frog tissues via post-transcriptional regulation., Tang GQ, Maxwell ES., Genome Res. January 1, 2008; 18 (1): 104-12.
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Xenopus oocytes as a heterologous expression system for studying ion channels with the patch-clamp technique., Tammaro P, Shimomura K, Proks P., Methods Mol Biol. January 1, 2008; 491 127-39.
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XGRIP2.1 is encoded by a vegetally localizing, maternal mRNA and functions in germ cell development and anteroposterior PGC positioning in Xenopus laevis., Tarbashevich K, Koebernick K, Pieler T., Dev Biol. November 15, 2007; 311 (2): 554-65.
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Xenopus galectin-VIa shows highly specific expression in cement glands and is regulated by canonical Wnt signaling., Michiue T, Danno H, Tanibe M, Ikuzawa M, Asashima M., Gene Expr Patterns. October 1, 2007; 7 (8): 852-7.
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XSUMO-1 is required for normal mesoderm induction and axis elongation during early Xenopus development., Yukita A, Michiue T, Danno H, Asashima M., Dev Dyn. October 1, 2007; 236 (10): 2757-66.
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Xenopus laevis: a possible vector of Ranavirus infection?, Robert J, Abramowitz L, Gantress J, Morales HD., J Wildl Dis. October 1, 2007; 43 (4): 645-52.
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Xenopus Cep57 is a novel kinetochore component involved in microtubule attachment., Emanuele MJ, Stukenberg PT., Cell. September 7, 2007; 130 (5): 893-905.
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XRab40 and XCullin5 form a ubiquitin ligase complex essential for the noncanonical Wnt pathway., Lee RH, Iioka H, Ohashi M, Iemura S, Natsume T, Kinoshita N., EMBO J. August 8, 2007; 26 (15): 3592-606.
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Xenopus Lefty requires proprotein cleavage but not N-linked glycosylation to inhibit nodal signaling., Westmoreland JJ, Takahashi S, Wright CV., Dev Dyn. August 1, 2007; 236 (8): 2050-61.
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Xenopus laevis as a model for the functional analysis of genes involved in embryogenesis and postembryonic organ regeneration., Hasebe T, Ishizuya-Oka A., J Nippon Med Sch. August 1, 2007; 74 (4): 266-7.
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Xenopus Bicaudal-C is required for the differentiation of the amphibian pronephros., Tran U, Pickney LM, Ozpolat BD, Wessely O., Dev Biol. July 1, 2007; 307 (1): 152-64.
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Xeya3 regulates survival and proliferation of neural progenitor cells within the anterior neural plate of Xenopus embryos., Kriebel M, Müller F, Hollemann T., Dev Dyn. June 1, 2007; 236 (6): 1526-34.
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Xenopus cDNA microarray identification of genes with endodermal organ expression., Park EC, Hayata T, Cho KW, Han JK., Dev Dyn. June 1, 2007; 236 (6): 1633-49.
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XSip1 neuralizing activity involves the co-repressor CtBP and occurs through BMP dependent and independent mechanisms., van Grunsven LA, Taelman V, Michiels C, Verstappen G, Souopgui J, Nichane M, Moens E, Opdecamp K, Vanhomwegen J, Kricha S, Huylebroeck D, Bellefroid EJ., Dev Biol. June 1, 2007; 306 (1): 34-49.
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Xenopus hairy2 functions in neural crest formation by maintaining cells in a mitotic and undifferentiated state., Nagatomo K, Hashimoto C., Dev Dyn. June 1, 2007; 236 (6): 1475-83.
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Xenopus laevis Einstecks., Sive HL, Grainger RM, Harland RM., CSH Protoc. June 1, 2007; 2007 pdb.prot4750.
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Xenopus laevis Keller Explants., Sive HL, Grainger RM, Harland RM., CSH Protoc. June 1, 2007; 2007 pdb.prot4749.
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Xenopus laevis Animal Cap/Dorsal Mesoderm Conjugates., Sive HL, Grainger RM, Harland RM., CSH Protoc. June 1, 2007; 2007 pdb.prot4748.
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Xenopus laevis Animal Cap/Vegetal Endoderm Conjugates., Sive HL, Grainger RM, Harland RM., CSH Protoc. June 1, 2007; 2007 pdb.prot4747.
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XTsh3 is an essential enhancing factor of canonical Wnt signaling in Xenopus axial determination., Onai T, Matsuo-Takasaki M, Inomata H, Aramaki T, Matsumura M, Yakura R, Sasai N, Sasai Y., EMBO J. May 2, 2007; 26 (9): 2350-60.
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Xenopus laevis In Vitro Fertilization and Natural Mating Methods., Sive HL, Grainger RM, Harland RM., CSH Protoc. May 1, 2007; 2007 pdb.prot4737.
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Xenopus laevis Egg Collection., Sive HL, Grainger RM, Harland RM., CSH Protoc. May 1, 2007; 2007 pdb.prot4736.
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Xenopus oocyte plasma membrane sheets for FRET analysis., Ottolia M, Philipson KD, John S., Am J Physiol Cell Physiol. April 1, 2007; 292 (4): C1519-22.
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Xenopus Xp54 and human RCK/p54 helicases functionally replace yeast Dhh1p in brome mosaic virus RNA replication., Alves-Rodrigues I, Mas A, Díez J., J Virol. April 1, 2007; 81 (8): 4378-80.
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Xom interacts with and stimulates transcriptional activity of LEF1/TCFs: implications for ventral cell fate determination during vertebrate embryogenesis., Gao H, Wu B, Giese R, Zhu Z., Cell Res. April 1, 2007; 17 (4): 345-56.
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Xom as a novel partner of Lef/Tcfs during dorsal-ventral patterning of the Xenopus embryo., Yang Y., Cell Res. April 1, 2007; 17 (4): 307-8.
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Xendorphin B1, a novel opioid-like peptide determined from a Xenopus laevis brain cDNA library, produces opioid antinociception after spinal administration in amphibians., Stevens CW, Tóth G, Borsodi A, Benyhe S., Brain Res Bull. March 30, 2007; 71 (6): 628-32.
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Xenopus tropicalis egg extracts provide insight into scaling of the mitotic spindle., Brown KS, Blower MD, Maresca TJ, Grammer TC, Harland RM, Heald R., J Cell Biol. March 12, 2007; 176 (6): 765-70.
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XLX is an IAP family member regulated by phosphorylation during meiosis., Greenwood J, Gautier J., Cell Death Differ. March 1, 2007; 14 (3): 559-67.
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Xenopus Tetraspanin-1 regulates gastrulation movements and neural differentiation in the early Xenopus embryo., Yamamoto Y, Grubisic K, Oelgeschläger M., Differentiation. March 1, 2007; 75 (3): 235-45.
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Xenopus Suppressor of Hairless 2 is involved in the cell fate decision during gastrulation through the transcriptional regulation of Xoct25/91., Ito M, Nishitani E, Kinoshita T., Biochem Biophys Res Commun. February 16, 2007; 353 (3): 644-9.
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Xnrs and activin regulate distinct genes during Xenopus development: activin regulates cell division., Ramis JM, Collart C, Smith JC., PLoS One. February 14, 2007; 2 (2): e213.
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Xenopus vocalizations are controlled by a sexually differentiated hindbrain central pattern generator., Rhodes HJ, Yu HJ, Yamaguchi A., J Neurosci. February 7, 2007; 27 (6): 1485-97.
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Xenopus as a model system for vertebrate heart development., Warkman AS, Krieg PA., Semin Cell Dev Biol. February 1, 2007; 18 (1): 46-53.
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Xenopus fibrillin regulates directed convergence and extension., Skoglund P, Keller R., Dev Biol. January 15, 2007; 301 (2): 404-16.
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Xenopus as a model to study alternative splicing in vivo., Méreau A, Le Sommer C, Lerivray H, Lesimple M, Hardy S., Biol Cell. January 1, 2007; 99 (1): 55-65.
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XSu(H)2 is an essential factor for gene expression and morphogenesis of the Xenopus gastrula embryo., Ito M, Katada T, Miyatani S, Kinoshita T., Int J Dev Biol. January 1, 2007; 51 (1): 27-36.
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Xenopus glucose transporter 1 (xGLUT1) is required for gastrulation movement in Xenopus laevis., Suzawa K, Yukita A, Hayata T, Goto T, Danno H, Michiue T, Cho KW, Asashima M., Int J Dev Biol. January 1, 2007; 51 (3): 183-90.
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Xenopus oocyte wound healing as a model system for analysis of microtubule-actin interactions., Zhang T, Mandato CA., Methods Mol Med. January 1, 2007; 137 181-8.
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Xenopus Dab2 is required for embryonic angiogenesis., Cheong SM, Choi SC, Han JK., BMC Dev Biol. December 19, 2006; 6 63.
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Xenopus Zic4: conservation and diversification of expression profiles and protein function among the Xenopus Zic family., Fujimi TJ, Mikoshiba K, Aruga J., Dev Dyn. December 1, 2006; 235 (12): 3379-86.
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Xenopus cadherin-6 regulates growth and epithelial development of the retina., Ruan G, Wedlich D, Koehler A., Mech Dev. December 1, 2006; 123 (12): 881-92.
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XMam1, Xenopus Mastermind1, induces neural gene expression in a Notch-independent manner., Katada T, Ito M, Kojima Y, Miyatani S, Kinoshita T., Mech Dev. November 1, 2006; 123 (11): 851-9.
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xSyndecan-4 regulates gastrulation and neural tube closure in Xenopus embryos., Muñoz R, Larraín J., ScientificWorldJournal. October 9, 2006; 6 1298-301.
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Xenopus Teashirt1 regulates posterior identity in brain and cranial neural crest., Koebernick K, Kashef J, Pieler T, Wedlich D., Dev Biol. October 1, 2006; 298 (1): 312-26.
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