| Search Results |
Xenopus p53 is biochemically similar to the human tumour suppressor protein p53 and is induced upon DNA damage in somatic cells., Cox LS, Midgley CA, Lane DP., Oncogene. October 1, 1994; 9 (10): 2951-9.
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Xenopus laevis ribosomal protein S11: cloning and sequencing of the cDNA and primary structure of the protein., Annesi F, Vespignani I, Amaldi F, Mariottini P., Biochem Biophys Res Commun. September 15, 1994; 203 (2): 768-72.
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Xenopus cadherins: the maternal pool comprises distinguishable members of the family., Müller HA, Kühl M, Finnemann S, Schneider S, van der Poel SZ, Hausen P, Wedlich D., Mech Dev. September 1, 1994; 47 (3): 213-23.
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Xenopus laevis cellular retinoic acid-binding protein: temporal and spatial expression pattern during early embryogenesis., Ho L, Mercola M, Gudas LJ., Mech Dev. July 1, 1994; 47 (1): 53-64.
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Xenopus laevis B4, an intron-containing oocyte-specific linker histone-encoding gene., Cho H, Wolffe AP., Gene. June 10, 1994; 143 (2): 233-8.
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Xenopus laevis L-14 lectin is expressed in a typical pattern in the adult, but is absent from embryonic tissues., Marschal P, Cannon V, Barondes SH, Cooper DN., Glycobiology. June 1, 1994; 4 (3): 297-305.
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XIHbox 8, an endoderm-specific Xenopus homeodomain protein, is closely related to a mammalian insulin gene transcription factor., Peshavaria M, Gamer L, Henderson E, Teitelman G, Wright CV, Stein R., Mol Endocrinol. June 1, 1994; 8 (6): 806-16.
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Xenopus embryos regulate the nuclear localization of XMyoD., Rupp RA, Snider L, Weintraub H., Genes Dev. June 1, 1994; 8 (11): 1311-23. 
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Xenopus laevis vitellogenin is a zinc protein., Montorzi M, Falchuk KH, Vallee BL., Biochem Biophys Res Commun. May 16, 1994; 200 (3): 1407-13.
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xUBF, an RNA polymerase I transcription factor, binds crossover DNA with low sequence specificity., Hu CH, McStay B, Jeong SW, Reeder RH., Mol Cell Biol. May 1, 1994; 14 (5): 2871-82.
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Xenopus laevis ovarian DNA helicase I: A 3' to 5' helicase that unwinds short duplexes., Poll EH, Harrison J, Umthun A, Dobbs DL, Benbow RM., Biochemistry. April 5, 1994; 33 (13): 3841-7.
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Xenopus laevis oocytes, eggs and tadpoles contain immunoactive insulin., de Pablo F, Dashner R, Shuldiner AR, Roth J., J Endocrinol. April 1, 1994; 141 (1): 123-9.
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XNkx-2.5, a Xenopus gene related to Nkx-2.5 and tinman: evidence for a conserved role in cardiac development., Tonissen KF, Drysdale TA, Lints TJ, Harvey RP, Krieg PA., Dev Biol. March 1, 1994; 162 (1): 325-8.
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XrelA, a Xenopus maternal and zygotic homologue of the p65 subunit of NF-kappa B. Characterisation of transcriptional properties in the developing embryo and identification of a negative interference mutant., Richardson JC, Garcia Estrabot AM, Woodland HR., Mech Dev. February 1, 1994; 45 (2): 173-89.
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Xenopus gamma-crystallin gene expression: evidence that the gamma-crystallin gene family is transcribed in lens and nonlens tissues., Smolich BD, Tarkington SK, Saha MS, Grainger RM., Mol Cell Biol. February 1, 1994; 14 (2): 1355-63.
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Xenopus laevis embryos can establish their spatial bilateral symmetrical body pattern without gravity., Ubbels GA, Reijnen M, Meijerink J, Narraway J., Adv Space Res. January 1, 1994; 14 (8): 257-69.
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Xwnt-11: a maternally expressed Xenopus wnt gene., Ku M, Melton DA., Development. December 1, 1993; 119 (4): 1161-73.
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Xenopus peroxisome proliferator activated receptors: genomic organization, response element recognition, heterodimer formation with retinoid X receptor and activation by fatty acids., Krey G, Keller H, Mahfoudi A, Medin J, Ozato K, Dreyer C, Wahli W., J Steroid Biochem Mol Biol. December 1, 1993; 47 (1-6): 65-73.
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XFKH2, a Xenopus HNF-3 alpha homologue, exhibits both activin-inducible and autonomous phases of expression in early embryos., Bolce ME, Hemmati-Brivanlou A, Harland RM., Dev Biol. December 1, 1993; 160 (2): 413-23.
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Xl-fli, the Xenopus homologue of the fli-1 gene, is expressed during embryogenesis in a restricted pattern evocative of neural crest cell distribution., Meyer D, Wolff CM, Stiegler P, Sénan F, Befort N, Befort JJ, Remy P., Mech Dev. December 1, 1993; 44 (2-3): 109-21.
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XrpFI, an amphibian transcription factor composed of multiple polypeptides immunologically related to the GA-binding protein alpha and beta subunits, is differentially expressed during Xenopus laevis development., Marchioni M, Morabito S, Salvati AL, Beccari E, Carnevali F., Mol Cell Biol. October 1, 1993; 13 (10): 6479-89.
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Xenopus muscle acetylcholine receptor alpha subunits bind ligands with different affinities., Wang YD, Claudio T., J Biol Chem. September 5, 1993; 268 (25): 18782-93.
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Xwnt-5A: a maternal Wnt that affects morphogenetic movements after overexpression in embryos of Xenopus laevis., Moon RT, Campbell RM, Christian JL, McGrew LL, Shih J, Fraser S., Development. September 1, 1993; 119 (1): 97-111.
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XASH-3, a novel Xenopus achaete-scute homolog, provides an early marker of planar neural induction and position along the mediolateral axis of the neural plate., Zimmerman K, Shih J, Bars J, Collazo A, Anderson DJ., Development. September 1, 1993; 119 (1): 221-32.
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Xenopus goosecoid: a gene expressed in the prechordal plate that has dorsalizing activity., Steinbeisser H, De Robertis EM., C R Acad Sci III. September 1, 1993; 316 (9): 959-71.
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Xenoxins, a family of peptides from dorsal gland secretion of Xenopus laevis related to snake venom cytotoxins and neurotoxins., Kolbe HV, Huber A, Cordier P, Rasmussen UB, Bouchon B, Jaquinod M, Vlasak R, Délot EC, Kreil G., J Biol Chem. August 5, 1993; 268 (22): 16458-64.
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Xenopus Ro ribonucleoproteins: members of an evolutionarily conserved class of cytoplasmic ribonucleoproteins., O'Brien CA, Margelot K, Wolin SL., Proc Natl Acad Sci U S A. August 1, 1993; 90 (15): 7250-4.
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Xenopus Heterochronic Presumptive Primordial Germ Cells (pPGCs) Implanted in the Correct Position in Host Neurula Embryos can Differentiate into PGCs: (Xenopus laevis, PGCs/heterochronic presumptive PGCs/explant/germ plasm-bearing cells)., Ikenishi K, Tanaka TS., Dev Growth Differ. August 1, 1993; 35 (4): 439-445.
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Xenopus A-myb is expressed during early spermatogenesis., Sleeman JP., Oncogene. July 1, 1993; 8 (7): 1931-41.
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Xenopus nuclear factor 7 (xnf7) possesses an NLS that functions efficiently in both oocytes and embryos., Li X, Etkin LD., J Cell Sci. June 1, 1993; 105 ( Pt 2) 389-95.
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Xenopus axis formation: induction of goosecoid by injected Xwnt-8 and activin mRNAs., Steinbeisser H, De Robertis EM, Ku M, Kessler DS, Melton DA., Development. June 1, 1993; 118 (2): 499-507.
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Xenopsin, neurotensin, neurotensin(8-13) and N-acetyl-neurotensin(8-13) inhibit vascular leakage in rats after tissue injury., Gao GC, Wei ET., J Pharmacol Exp Ther. May 1, 1993; 265 (2): 619-25.
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Xenopus Distal-less related homeobox genes are expressed in the developing forebrain and are induced by planar signals., Papalopulu N, Kintner C., Development. March 1, 1993; 117 (3): 961-75.
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XLPOU-60, a Xenopus POU-domain mRNA, is oocyte-specific from very early stages of oogenesis, and localised to presumptive mesoderm and ectoderm in the blastula., Whitfield T, Heasman J, Wylie C., Dev Biol. February 1, 1993; 155 (2): 361-70.
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XASH1, a Xenopus homolog of achaete-scute: a proneural gene in anterior regions of the vertebrate CNS., Ferreiro B, Skoglund P, Bailey A, Dorsky R, Harris WA., Mech Dev. January 1, 1993; 40 (1-2): 25-36.
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Xenopus c-ski contains a novel coiled-coil protein domain, and is maternally expressed during development., Sleeman JP, Laskey RA., Oncogene. January 1, 1993; 8 (1): 67-77.
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Xenopus laevis oocyte G alpha subunits mRNAs. Detection and quantitation during oogenesis and early embryogenesis by competitive reverse PCR., Oñate A, Herrera L, Antonelli M, Birnbaumer L, Olate J., FEBS Lett. November 30, 1992; 313 (3): 213-9.
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Xenopus Gastrulation without a blastocoel roof., Keller R, Jansa S., Dev Dyn. November 1, 1992; 195 (3): 162-76.
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Xenopus maternal RNAs from a dorsal animal blastomere induce a secondary axis in host embryos., Hainski AM, Moody SA., Development. October 1, 1992; 116 (2): 347-55.
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Xenopus exhibits seasonal variation in retinotectal latency but not tecto-isthmo-tectal latency., Scherer WJ, Udin SB., J Comp Physiol A. September 1, 1992; 171 (2): 207-12.
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Xenopus laevis sperm proteins, previously identified as surface proteins with egg coat binding capability, are indeed histone H4, histone H3, and sperm specific protein SP2., Bernardini G, Donne ID, Norreri S, Negri A, Milzani A., J Exp Zool. August 15, 1992; 263 (2): 210-4.
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Xenopus MAP kinase activator is a serine/threonine/tyrosine kinase activated by threonine phosphorylation., Kosako H, Gotoh Y, Matsuda S, Ishikawa M, Nishida E., EMBO J. August 1, 1992; 11 (8): 2903-8.
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xP2, a new member of the P-domain peptide family of potential growth factors, is synthesized in Xenopus laevis skin., Hauser F, Roeben C, Hoffmann W., J Biol Chem. July 15, 1992; 267 (20): 14451-5.
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Xenopus blastulae show regional differences in competence for mesoderm induction: correlation with endogenous basic fibroblast growth factor levels., Godsave SF, Shiurba RA., Dev Biol. June 1, 1992; 151 (2): 506-15.
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Xlcaax-1 is localized to the basolateral membrane of kidney tubule and other polarized epithelia during Xenopus development., Cornish JA, Kloc M, Decker GL, Reddy BA, Etkin LD., Dev Biol. March 1, 1992; 150 (1): 108-20.
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Xenopus MAP kinase activator: identification and function as a key intermediate in the phosphorylation cascade., Matsuda S, Kosako H, Takenaka K, Moriyama K, Sakai H, Akiyama T, Gotoh Y, Nishida E., EMBO J. March 1, 1992; 11 (3): 973-82.
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Xwnt-8 modifies the character of mesoderm induced by bFGF in isolated Xenopus ectoderm., Christian JL, Olson DJ, Moon RT., EMBO J. January 1, 1992; 11 (1): 33-41.
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Xenopus oocyte microinjection: from gene to protein., Soreq H, Seidman S., Methods Enzymol. January 1, 1992; 207 225-65.
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Xenopus Hox-2 genes are expressed sequentially after the onset of gastrulation and are differentially inducible by retinoic acid., Dekker EJ, Pannese M, Houtzager E, Timmermans A, Boncinelli E, Durston A., Dev Suppl. January 1, 1992; 195-202.
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xP1 and xP4. P-domain peptides expressed in Xenopus laevis stomach mucosa., Hauser F, Hoffmann W., J Biol Chem. November 5, 1991; 266 (31): 21306-9.
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