Papers associated with oocyte (and trna)

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	Biochemical research on oogenesis. Comparison between transfer RNAs from somatic cells and from oocytes in Xenopus laevis., Denis H., Eur J Biochem. October 1, 1975; 58 (1): 43-50.
	Biochemical research on oogenesis. Nucleotide sequence of initiator tRNA from oocytes and from somatic cells of Xenopus laevis., Wegnez M., Eur J Biochem. December 1, 1975; 60 (1): 295-302.
	Transcription of cloned tRNA gene fragments and subfragments injected into the oocyte nucleus of Xenopus laevis., Kressmann A., Proc Natl Acad Sci U S A. March 1, 1978; 75 (3): 1176-80.
	Specific transcription of eukaryotic tRNA genes in Xenopus germinal vesicle extracts., Schmidt O., Proc Natl Acad Sci U S A. October 1, 1978; 75 (10): 4819-23.
	Cloning of nematode tRNA genes and their expression in the frog oocyte., Cortese R., Nucleic Acids Res. December 1, 1978; 5 (12): 4593-611.
	Functionally impaired tRNA from ethionine treated rats as detected in injected Xenopus oocytes., Ginzburg I., Nucleic Acids Res. February 1, 1979; 6 (2): 657-72.
	In vitro synthesis of RNA by Xenopus spermatogenic cells I. Evidence for polyadenylated and non-polyadenylated RNA synthesis in different cell populations., Kalt MR., J Exp Zool. April 1, 1979; 208 (1): 77-96.
	Studies on aminoacyl tRNA synthetases and transfer RNA in living Xenopus laevis oocytes., Gatica M., Arch Biol Med Exp. October 1, 1979; 12 (3): 427-31.
	The nucleotide sequence of a cloned Drosophila arginine tRNA gene and its in vitro transcription in Xenopus germinal vesicle extracts., Silverman S., J Biol Chem. October 25, 1979; 254 (20): 10290-4.
	The primary transcription product of a silkworm alanine tRNA gene: identification of in vitro sites of initiation, termination and processing., Hagenbüchle O., Cell. December 1, 1979; 18 (4): 1217-29.
	Transcription of cloned tRNA genes and the nuclear partitioning of a tRNA precursor., Melton DA., Cell. December 1, 1979; 18 (4): 1165-72.
	A tRNA gene of Xenopus laevis contains at least two sites promoting transcription., Kressmann A., Nucleic Acids Res. December 11, 1979; 7 (7): 1749-63.
	Transcription of a specific product from cloned T4 tRNA genes in Xenopus germinal vesicle extract., Sarabhai A., Biochem Biophys Res Commun. January 29, 1980; 92 (2): 424-30.
	Transcription and processing of a yeast tRNA gene containing a modified intervening sequence., Johnson JD., Proc Natl Acad Sci U S A. May 1, 1980; 77 (5): 2564-8.
	Transcription of tRNA genes in vivo: single-stranded compared to double-stranded templates., Cortese R., Proc Natl Acad Sci U S A. July 1, 1980; 77 (7): 4147-51.
	Dimeric tRNA precursors in yeast., Schmidt O., Nature. October 23, 1980; 287 (5784): 750-2.
	Differential effect of spermine on nuclear and cytoplasmic transfer RNA methyl transferases from Xenopus laevis Oocytes., Solari A., Arch Biol Med Exp. November 1, 1980; 13 (2): 287-93.
	Nonsense suppression in eukaryotes: the use of the Xenopus oocyte as an in vivo assay system., Bienz M., Nucleic Acids Res. November 25, 1980; 8 (22): 5169-78.
	Intranuclear location of the tRNA splicing enzymes., De Robertis EM., Cell. January 1, 1981; 23 (1): 89-93.
	A split promoter for a eucaryotic tRNA gene., Hofstetter H., Cell. May 1, 1981; 24 (2): 573-85.
	A quantitative assay for Xenopus 5S RNA gene transcription in vitro., Wormington WM., Cell. June 1, 1981; 24 (3): 809-17.
	Deletion of the 3' half of the yeast tRNA-Leu3 gene does not abolish promotor function in vitro., Carrara G., Cell. December 1, 1981; 27 (2 Pt 1): 371-9.
	Transcription of 5 S RNA genes in vitro is feedback-inhibited by HeLa 5 S RNA., Gruissem W., J Biol Chem. February 10, 1982; 257 (3): 1468-72.
	Intracellular transport of microinjected 5S and small nuclear RNAs., De Robertis EM., Nature. February 18, 1982; 295 (5850): 572-7.
	Site-directed mutagenesis of a tRNA gene: base alterations in the coding region affect transcription., Ciampi MS., Proc Natl Acad Sci U S A. March 1, 1982; 79 (5): 1388-92.
	Assembly of transcriptionally active 5S RNA gene chromatin in vitro., Gottesfeld J., Cell. April 1, 1982; 28 (4): 781-91.
	Subcellular localization of the tRNA processing enzyme, tRNA nucleotidyltransferase, in Xenopus laevis oocytes and in somatic cells., Solari A., Nucleic Acids Res. July 24, 1982; 10 (14): 4397-407.
	The minimum intragenic sequences required for promotion of eukaryotic tRNA gene transcription., Sharp S., Nucleic Acids Res. September 25, 1982; 10 (18): 5393-406.
	The nucleotide sequence of phenylalanine tRNA of Xenopus laevis., Mazabraud A., Biochimie. October 1, 1982; 64 (10): 955-60.
	Sequences of four tRNA genes from Caenorhabditis elegans and the expression of C. elegans tRNALeu (anticodon IAG) in Xenopus oocytes., Tranquilla TA., Nucleic Acids Res. December 20, 1982; 10 (24): 7919-34.
	Control of 5S RNA transcription in Xenopus somatic cell chromatin: activation with an oocyte extract., Reynolds WF., Nucleic Acids Res. January 11, 1983; 11 (1): 57-75.
	Multiple forms of DNA-dependent RNA polymerases in Xenopus laevis. Properties, purification, and subunit structure of class III RNA polymerases., Roeder RG., J Biol Chem. February 10, 1983; 258 (3): 1932-41.
	A human tRNAGlu gene of high transcriptional activity., Goddard JP., Nucleic Acids Res. May 11, 1983; 11 (9): 2551-62.
	A detailed mutational analysis of the eucaryotic tRNAmet1 gene promoter., Folk WR., Cell. June 1, 1983; 33 (2): 585-93.
	Mitochondrial transfer RNA genes from fungi (Aspergillus nidulans) and plants (Lupinus luteus) are transcribed in Xenopus laevis oocyte nuclei., Bartnik E., J Mol Biol. August 5, 1983; 168 (2): 439-44.
	Onset of 5 S RNA gene regulation during Xenopus embryogenesis., Wormington WM., Dev Biol. September 1, 1983; 99 (1): 248-57.
	tRNA transport from the nucleus in a eukaryotic cell: carrier-mediated translocation process., Zasloff M., Proc Natl Acad Sci U S A. November 1, 1983; 80 (21): 6436-40.
	Role of RNA structure in splicing: excision of the intervening sequence in yeast tRNA3leu is dependent on the formation of a D stem., Baldi MI., Cell. November 1, 1983; 35 (1): 109-15.
	Each element of the Drosophila tRNAArg gene split promoter directs transcription in Xenopus oocytes., Sharp S., Nucleic Acids Res. December 20, 1983; 11 (24): 8677-90.
	Chromosomal location of a major tRNA gene cluster of Xenopus laevis., Fostel J., Chromosoma. January 1, 1984; 90 (4): 254-60.
	Binding of Xenopus transcription factor A to 5S RNA and to single stranded DNA., Hanas JS., Nucleic Acids Res. March 26, 1984; 12 (6): 2745-58.
	Competition between Xenopus satellite I sequences and Pol III genes for stable transcription complex formation., Andrews DL., Nucleic Acids Res. October 25, 1984; 12 (20): 7753-69.
	A transfer RNAArg gene of Pelargonium chloroplasts, but not a 5S RNA gene, is efficiently transcribed after injection into Xenopus oocyte nuclei., Hellmund D., Nucleic Acids Res. November 12, 1984; 12 (21): 8253-68.
	A Drosophila melanogaster transfer RNA gene cluster at the cytogenetic locus 90BC., DeLotto R., J Mol Biol. November 15, 1984; 179 (4): 587-605.
	Characterisation of a Dictyostelium discoideum DNA fragment coding for a putative tRNAValGUU gene. Evidence for a single transcription unit consisting of two overlapping class III genes., Dingermann T., Eur J Biochem. January 15, 1985; 146 (2): 449-58.
	Different patterns of transposable elements in the vicinity of tRNA genes in yeast: a possible clue to transcriptional modulation., Nelböck P., Biol Chem Hoppe Seyler. November 1, 1985; 366 (11): 1041-51.
	Enzymatic 2'-O-methylation of the wobble nucleoside of eukaryotic tRNAPhe: specificity depends on structural elements outside the anticodon loop., Droogmans L., EMBO J. May 1, 1986; 5 (5): 1105-9.
	Enzymatic conversion of guanosine 3' adjacent to the anticodon of yeast tRNAPhe to N1-methylguanosine and the wye nucleoside: dependence on the anticodon sequence., Droogmans L., EMBO J. February 1, 1987; 6 (2): 477-83.
	Transcription termination and processing of transcripts from tRNA-related Xenopus satellite DNA sequences., Meyerhof W., Eur J Biochem. April 15, 1987; 164 (2): 287-93.
	The in vivo stability, maturation and aminoacylation of anticodon-substituted Escherichia coli initiator methionine tRNAs., Grosjean H., Eur J Biochem. July 15, 1987; 166 (2): 325-32.

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