Literature DB >> 2456522

Primary structure and functional organization of Drosophila 1731 retrotransposon.

F Fourcade-Peronnet1, L d'Auriol, J Becker, F Galibert, M Best-Belpomme.   

Abstract

We have determined the nucleotide sequence of the Drosophila retrotransposon 1731. 1731 is 4648 bp long and is flanked by 336 bp terminal repeats (LTRs) previously described as being reminiscent of provirus LTRs. The 1731 genome consists of two long open reading frames (ORFs 1 and 2) which slightly overlap each other. The ORF 1 and 2 present similarities with retroviral gag and pol genes respectively as shown by computer analysis. The pol gene exhibits several enzymatic activities in the following order: protease, endonuclease and reverse transcriptase. It is possible that 1731 also encompasses a ribonuclease H activity located between the endonuclease and reverse transcriptase domains. Moreover, comparison of the 1731 pol gene with the pol region of copia shows similarities extending over the protease, endonuclease and reverse transcriptase domains. We show that codon usage in the two retrotransposons is different. Finally, no ORF able to encode an env gene is detected in 1731.

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Year:  1988        PMID: 2456522      PMCID: PMC336851          DOI: 10.1093/nar/16.13.6113

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  35 in total

1.  Complete nucleotide sequence and genome organization of a Drosophila transposable genetic element, 297.

Authors:  S Inouye; S Yuki; K Saigo
Journal:  Eur J Biochem       Date:  1986-01-15

2.  Ty element transposition: reverse transcriptase and virus-like particles.

Authors:  D J Garfinkel; J D Boeke; G R Fink
Journal:  Cell       Date:  1985-09       Impact factor: 41.582

3.  Identification of genes for reverse transcriptase-like enzymes in two Drosophila retrotransposons, 412 and gypsy; a rapid detection method of reverse transcriptase genes using YXDD box probes.

Authors:  S Yuki; S Ishimaru; S Inouye; K Saigo
Journal:  Nucleic Acids Res       Date:  1986-04-11       Impact factor: 16.971

4.  Nucleotide sequence of a yeast Ty element: evidence for an unusual mechanism of gene expression.

Authors:  J Clare; P Farabaugh
Journal:  Proc Natl Acad Sci U S A       Date:  1985-05       Impact factor: 11.205

5.  Nucleotide sequence and expression of an AIDS-associated retrovirus (ARV-2).

Authors:  R Sanchez-Pescador; M D Power; P J Barr; K S Steimer; M M Stempien; S L Brown-Shimer; W W Gee; A Renard; A Randolph; J A Levy
Journal:  Science       Date:  1985-02-01       Impact factor: 47.728

Review 6.  Retroviruses and retrotransposons: the role of reverse transcription in shaping the eukaryotic genome.

Authors:  D Baltimore
Journal:  Cell       Date:  1985-03       Impact factor: 41.582

7.  A transposon-like element in human DNA.

Authors:  K E Paulson; N Deka; C W Schmid; R Misra; C W Schindler; M G Rush; L Kadyk; L Leinwand
Journal:  Nature       Date:  1985 Jul 25-31       Impact factor: 49.962

8.  Complete nucleotide sequence of the Drosophila transposable element copia: homology between copia and retroviral proteins.

Authors:  S M Mount; G M Rubin
Journal:  Mol Cell Biol       Date:  1985-07       Impact factor: 4.272

9.  The mosaic genome of warm-blooded vertebrates.

Authors:  G Bernardi; B Olofsson; J Filipski; M Zerial; J Salinas; G Cuny; M Meunier-Rotival; F Rodier
Journal:  Science       Date:  1985-05-24       Impact factor: 47.728

10.  Repetitive zinc-binding domains in the protein transcription factor IIIA from Xenopus oocytes.

Authors:  J Miller; A D McLachlan; A Klug
Journal:  EMBO J       Date:  1985-06       Impact factor: 11.598
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  26 in total

1.  The yeast retrotransposon Ty5 uses the anticodon stem-loop of the initiator methionine tRNA as a primer for reverse transcription.

Authors:  N Ke; X Gao; J B Keeney; J D Boeke; D F Voytas
Journal:  RNA       Date:  1999-07       Impact factor: 4.942

2.  Translational recoding signals between gag and pol in diverse LTR retrotransposons.

Authors:  Xiang Gao; Ericka R Havecker; Pavel V Baranov; John F Atkins; Daniel F Voytas
Journal:  RNA       Date:  2003-12       Impact factor: 4.942

3.  A redefinition of the Asp-Asp domain of reverse transcriptases.

Authors:  A M Velasco; L Medrano; A Lazcano; J Oró
Journal:  J Mol Evol       Date:  1992-12       Impact factor: 2.395

4.  copia-like retrotransposons are ubiquitous among plants.

Authors:  D F Voytas; M P Cummings; A Koniczny; F M Ausubel; S R Rodermel
Journal:  Proc Natl Acad Sci U S A       Date:  1992-08-01       Impact factor: 11.205

5.  Sequence analysis of WIS-2-1A, a retrotransposon-like element from wheat.

Authors:  G J Murphy; H Lucas; G Moore; R B Flavell
Journal:  Plant Mol Biol       Date:  1992-12       Impact factor: 4.076

6.  Ty1-copia group retrotransposons and the evolution of retroelements in the eukaryotes.

Authors:  A J Flavell
Journal:  Genetica       Date:  1992       Impact factor: 1.082

7.  A new member of a family of site-specific retrotransposons is present in the spliced leader RNA genes of Trypanosoma cruzi.

Authors:  M S Villanueva; S P Williams; C B Beard; F F Richards; S Aksoy
Journal:  Mol Cell Biol       Date:  1991-12       Impact factor: 4.272

8.  A short 5' region of the long terminal repeat is required for regulation by hormone and heat shock of Drosophila retrotransposon 1731.

Authors:  P Ziarczyk; M Best-Belpomme
Journal:  Nucleic Acids Res       Date:  1991-10-25       Impact factor: 16.971

9.  Functional analysis of the long terminal repeats of Drosophila 1731 retrotransposon: promoter function and steroid regulation.

Authors:  P Ziarczyk; F Fourcade-Peronnet; S Simonart; C Maisonhaute; M Best-Belpomme
Journal:  Nucleic Acids Res       Date:  1989-11-11       Impact factor: 16.971

10.  Copia-like retrotransposable element evolution in diploid and polyploid cotton (Gossypium L.).

Authors:  P L VanderWiel; D F Voytas; J F Wendel
Journal:  J Mol Evol       Date:  1993-05       Impact factor: 2.395
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