| Search Results |
Xenopus laevis zygote arrest 2 (zar2) encodes a zinc finger RNA-binding protein that binds to the translational control sequence in the maternal Wee1 mRNA and regulates translation., Charlesworth A, Yamamoto TM, Cook JM, Silva KD, Kotter CV, Carter GS, Holt JW, Lavender HF, MacNicol AM, Ying Wang Y, Wilczynska A., Dev Biol. September 15, 2012; 369 (2): 177-90. 
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Xtr, a plural tudor domain-containing protein, is involved in the translational regulation of maternal mRNA during oocyte maturation in Xenopus laevis., Ohgami H, Hiyoshi M, Mostafa MG, Kubo H, Abe S, Takamune K., Dev Growth Differ. August 1, 2012; 54 (6): 660-71.
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Xmab21l3 mediates dorsoventral patterning in Xenopus laevis., Sridharan J, Haremaki T, Jin Y, Teegala S, Weinstein DC., Mech Dev. July 1, 2012; 129 (5-8): 136-46.
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Xenopus laevis: an ideal experimental model for studying the developmental dynamics of neural network assembly and sensory-motor computations., Straka H, Simmers J., Dev Neurobiol. April 1, 2012; 72 (4): 649-63.
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Xenopus as an experimental system for developmental neuroscience: introduction to a special issue., Cline HT, Kelly D., Dev Neurobiol. April 1, 2012; 72 (4): 463-4.
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Xenopus Nanos1 is required to prevent endoderm gene expression and apoptosis in primordial germ cells., Lai F, Singh A, King ML., Development. April 1, 2012; 139 (8): 1476-86.
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Xenopus egg extract treatment reduced global DNA methylation of donor cells and enhanced somatic cell nuclear transfer embryo development in pigs., Yang X, Mao J, Walters EM, Zhao MT, Teson J, Lee K, Prather RS., Biores Open Access. April 1, 2012; 1 (2): 79-87.
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Xenopus Shugoshin 2 regulates the spindle assembly pathway mediated by the chromosomal passenger complex., Rivera T, Ghenoiu C, Rodríguez-Corsino M, Mochida S, Funabiki H, Losada A., EMBO J. March 21, 2012; 31 (6): 1467-79.
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XIAP monoubiquitylates Groucho/TLE to promote canonical Wnt signaling., Hanson AJ, Wallace HA, Freeman TJ, Beauchamp RD, Lee LA, Lee E., Mol Cell. March 9, 2012; 45 (5): 619-28.
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Xenopus staufen2 is required for anterior endodermal organ formation., Bilogan CK, Horb ME., Genesis. March 1, 2012; 50 (3): 251-9.
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Xenopus white papers and resources: folding functional genomics and genetics into the frog., Khokha MK., Genesis. March 1, 2012; 50 (3): 133-42.
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Xenopus: an ideal system for chemical genetics., Wheeler GN, Liu KJ., Genesis. March 1, 2012; 50 (3): 207-18.
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Xaml1/Runx1 is required for the specification of Rohon-Beard sensory neurons in Xenopus., Park BY, Hong CS, Weaver JR, Rosocha EM, Saint-Jeannet JP., Dev Biol. February 1, 2012; 362 (1): 65-75.
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Xenopus paraxial protocadherin inhibits Wnt/β-catenin signalling via casein kinase 2β., Kietzmann A, Wang Y, Weber D, Steinbeisser H., EMBO Rep. February 1, 2012; 13 (2): 129-34.
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Xenopus Zic3 controls notochord and organizer development through suppression of the Wnt/β-catenin signaling pathway., Fujimi TJ, Hatayama M, Aruga J., Dev Biol. January 15, 2012; 361 (2): 220-31.
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Xenopus laevis Ctc1-Stn1-Ten1 (xCST) protein complex is involved in priming DNA synthesis on single-stranded DNA template in Xenopus egg extract., Nakaoka H, Nishiyama A, Saito M, Ishikawa F., J Biol Chem. January 2, 2012; 287 (1): 619-627.
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xCOUP-TF-B regulates xCyp26 transcription and modulates retinoic acid signaling for anterior neural patterning in Xenopus., Tanibe M, Ishiura S, Asashima M, Michiue T., Int J Dev Biol. January 1, 2012; 56 (4): 239-44.
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Xenopus as a model system for the study of GOLPH2/GP73 function: Xenopus GOLPH2 is required for pronephros development., Li L, Wen L, Gong Y, Mei G, Liu J, Chen Y, Peng T., PLoS One. January 1, 2012; 7 (6): e38939.
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Xenopus transgenics: methods using transposons., Kelley CM, Yergeau DA, Zhu H, Kuliyev E, Mead PE., Methods Mol Biol. January 1, 2012; 917 231-43.
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Xenopus tropicalis as a model organism for genetics and genomics: past, present, and future., Grainger RM., Methods Mol Biol. January 1, 2012; 917 3-15.
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Xenopus research: metamorphosed by genetics and genomics., Harland RM, Grainger RM., Trends Genet. December 1, 2011; 27 (12): 507-15.
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Xenopus pronephros development--past, present, and future., Wessely O, Tran U., Pediatr Nephrol. September 1, 2011; 26 (9): 1545-51.
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xCITED2 Induces Neural Genes in Animal Cap Explants of Xenopus Embryos., Yoon J, Kim JH, Lee OJ, Kim JI, Kim SC, Park JB, Lee JY, Kim J., Exp Neurobiol. September 1, 2011; 20 (3): 123-9.
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Xenopus Dbx2 is involved in primary neurogenesis and early neural plate patterning., Ma P, Zhao S, Zeng W, Yang Q, Li C, Lv X, Zhou Q, Mao B., Biochem Biophys Res Commun. August 19, 2011; 412 (1): 170-4.
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Xenopus laevis oocytes infected with multi-drug-resistant bacteria: implications for electrical recordings., O'Connell D, Mruk K, Rocheleau JM, Kobertz WR., J Gen Physiol. August 1, 2011; 138 (2): 271-7.
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Xenopus embryos and ES cells as tools for studies of developmental biology., Kume S., Neurochem Res. July 1, 2011; 36 (7): 1280-5.
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Xenopus laevis insulin receptor substrate IRS-1 is important for eye development., Bugner V, Aurhammer T, Kühl M., Dev Dyn. July 1, 2011; 240 (7): 1705-15.
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X inactivation: a histone protects from reprogramming by the frog., Wutz A., EMBO J. June 15, 2011; 30 (12): 2310-1.
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Xenopus: An emerging model for studying congenital heart disease., Kaltenbrun E, Tandon P, Amin NM, Waldron L, Showell C, Conlon FL., Birth Defects Res A Clin Mol Teratol. June 1, 2011; 91 (6): 495-510.
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Xrel3/XrelA attenuates β-catenin-mediated transcription during mesoderm formation in Xenopus embryos., Kennedy MW, Kao KR., Biochem J. April 1, 2011; 435 (1): 247-57.
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XMeis3 is necessary for mesodermal Hox gene expression and function., In der Rieden PM, Jansen HJ, Durston AJ., PLoS One. March 9, 2011; 6 (3): e18010.
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Xenopus laevis as a novel model to study long bone critical-size defect repair by growth factor-mediated regeneration., Feng L, Milner DJ, Xia C, Nye HL, Redwood P, Cameron JA, Stocum DL, Fang N, Jasiuk I., Tissue Eng Part A. March 1, 2011; 17 (5-6): 691-701.
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Xenopus HJURP and condensin II are required for CENP-A assembly., Bernad R, Sánchez P, Rivera T, Rodríguez-Corsino M, Boyarchuk E, Vassias I, Ray-Gallet D, Arnaoutov A, Dasso M, Almouzni G, Losada A., J Cell Biol. February 21, 2011; 192 (4): 569-82.
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XGef influences XRINGO/CDK1 signaling and CPEB activation during Xenopus oocyte maturation., Kuo P, Runge E, Lu X, Hake LE., Differentiation. February 1, 2011; 81 (2): 133-40.
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Xenopus germline nanos1 is translationally repressed by a novel structure-based mechanism., Luo X, Nerlick S, An W, King ML., Development. February 1, 2011; 138 (3): 589-98.
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Xenopus reduced folate carrier regulates neural crest development epigenetically., Li J, Shi Y, Sun J, Mao B., PLoS One. January 1, 2011; 6 (11): e27198.
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XIer2 is required for convergent extension movements during Xenopus development., Hong SK, Tanegashima K, Dawid IB., Int J Dev Biol. January 1, 2011; 55 (10-12): 917-21.
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Xenopus er71 is involved in vascular development., Neuhaus H, Müller F, Hollemann T., Dev Dyn. December 1, 2010; 239 (12): 3436-45.
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Xenopus Kazrin interacts with ARVCF-catenin, spectrin and p190B RhoGAP, and modulates RhoA activity and epithelial integrity., Cho K, Vaught TG, Ji H, Gu D, Papasakelariou-Yared C, Horstmann N, Jennings JM, Lee M, Sevilla LM, Kloc M, Reynolds AB, Watt FM, Brennan RG, Kowalczyk AP, McCrea PD., J Cell Sci. December 1, 2010; 123 (Pt 23): 4128-44.
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Xenopus furry contributes to release of microRNA gene silencing., Goto T, Fukui A, Shibuya H, Keller R, Asashima M., Proc Natl Acad Sci U S A. November 9, 2010; 107 (45): 19344-9.
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Xenopus sonic hedgehog guides retinal axons along the optic tract., Gordon L, Mansh M, Kinsman H, Morris AR., Dev Dyn. November 1, 2010; 239 (11): 2921-32.
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Xenopus egg extracts increase dynamics of histone H1 on sperm chromatin., Freedman BS, Miller KE, Heald R., PLoS One. September 7, 2010; 5 (9):
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xGit2 and xRhoGAP 11A regulate convergent extension and tissue separation in Xenopus gastrulation., Köster I, Jungwirth MS, Steinbeisser H., Dev Biol. August 1, 2010; 344 (1): 26-35.
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XRCC1 phosphorylation by CK2 is required for its stability and efficient DNA repair., Parsons JL, Dianova II, Finch D, Tait PS, Ström CE, Helleday T, Dianov GL., DNA Repair (Amst). July 1, 2010; 9 (7): 835-41.
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Xclaudin 1 is required for the proper gastrulation in Xenopus laevis., Chang DJ, Hwang YS, Cha SW, Chae JP, Hwang SH, Hahn JH, Bae YC, Lee HS, Park MJ., Biochem Biophys Res Commun. June 18, 2010; 397 (1): 75-81.
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Xenopus RCOR2 (REST corepressor 2) interacts with ZMYND8, which is involved in neural differentiation., Zeng W, Kong Q, Li C, Mao B., Biochem Biophys Res Commun. April 16, 2010; 394 (4): 1024-9.
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Xenopus Bsx links daily cell cycle rhythms and pineal photoreceptor fate., D'Autilia S, Broccoli V, Barsacchi G, Andreazzoli M., Proc Natl Acad Sci U S A. April 6, 2010; 107 (14): 6352-7.
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Xenopus skip modulates Wnt/beta-catenin signaling and functions in neural crest induction., Wang Y, Fu Y, Gao L, Zhu G, Liang J, Gao C, Huang B, Fenger U, Niehrs C, Chen YG, Wu W., J Biol Chem. April 2, 2010; 285 (14): 10890-901.
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Xenopus., Wallingford JB, Liu KJ, Zheng Y., Curr Biol. March 23, 2010; 20 (6): R263-4.
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Xenopus DNA2 is a helicase/nuclease that is found in complexes with replication proteins And-1/Ctf4 and Mcm10 and DSB response proteins Nbs1 and ATM., Wawrousek KE, Fortini BK, Polaczek P, Chen L, Liu Q, Dunphy WG, Campbell JL., Cell Cycle. March 15, 2010; 9 (6): 1156-66.
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