Literature DB >> 9071012

The 3' ends of tRNA-derived SINEs originated from the 3' ends of LINEs: a new example from the bovine genome.

N Okada1, M Hamada.   

Abstract

Our group demonstrated recently that the 3' ends of several families of tRNA-derived SINEs (short interspersed repetitive elements) originated from the 3' ends of LINEs (long interspersed repetitive elements) [Ohshima et al. (1996) Mol. Cell. Biol. 16:3756-3764]. Two fully characterized examples of such organization were provided by the tortoise Pol III/SINE and the salmonid HpaI family of SINEs, and two probable examples were provided by the tobacco TS family of SINEs and the salmon SmaI family of SINEs. This organization of SINEs can explain their potential to retropose in the genome since it appears reasonable that the sites for recognition of LINEs by reverse transcriptase should be located within the 3'-end sequences of LINEs. We now add another example to this category of SINEs. In the bovine genome, there are Bov-tA SINEs, which belong to the superfamily of tRNA-derived families of SINEs, and Bov-B LINEs, which were recently demonstrated to belong to a LINE family. Moreover, Bov-tA and Bov-B share the same 3'-end tail. We propose a possible scenario whereby the composite structure of the bovine Bov-tA family of SINEs might have been generated from the Bov-B family of LINEs during evolution.

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Year:  1997        PMID: 9071012     DOI: 10.1007/pl00000058

Source DB:  PubMed          Journal:  J Mol Evol        ISSN: 0022-2844            Impact factor:   2.395


  29 in total

1.  A highly repetitive and transcribable sequence in the tortoise genome is probably a retroposon.

Authors:  H Endoh; S Nagahashi; N Okada
Journal:  Eur J Biochem       Date:  1990-04-20

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Authors:  J H Rogers
Journal:  Int Rev Cytol       Date:  1985

3.  A composite transposon 3' to the cow fetal globin gene binds a sequence specific factor.

Authors:  C R Zelnick; D J Burks; C H Duncan
Journal:  Nucleic Acids Res       Date:  1987-12-23       Impact factor: 16.971

Review 4.  Origins and evolutionary relationships of retroviruses.

Authors:  R F Doolittle; D F Feng; M S Johnson; M A McClure
Journal:  Q Rev Biol       Date:  1989-03       Impact factor: 4.875

5.  Novel Alu-type repeat in artiodactyls.

Authors:  C H Duncan
Journal:  Nucleic Acids Res       Date:  1987-02-11       Impact factor: 16.971

6.  An abundant cytoplasmic 7S RNA is complementary to the dominant interspersed middle repetitive DNA sequence family in the human genome.

Authors:  A M Weiner
Journal:  Cell       Date:  1980-11       Impact factor: 41.582

7.  Evolution of the active sequences of the HpaI short interspersed elements.

Authors:  Y Kido; M Saitoh; S Murata; N Okada
Journal:  J Mol Evol       Date:  1995-12       Impact factor: 2.395

8.  Several short interspersed repetitive elements (SINEs) in distant species may have originated from a common ancestral retrovirus: characterization of a squid SINE and a possible mechanism for generation of tRNA-derived retroposons.

Authors:  K Ohshima; R Koishi; M Matsuo; N Okada
Journal:  Proc Natl Acad Sci U S A       Date:  1993-07-01       Impact factor: 11.205

9.  The 3' ends of tRNA-derived short interspersed repetitive elements are derived from the 3' ends of long interspersed repetitive elements.

Authors:  K Ohshima; M Hamada; Y Terai; N Okada
Journal:  Mol Cell Biol       Date:  1996-07       Impact factor: 4.272

10.  Short interspersed nuclear element (SINE) sequences of the Bovidae.

Authors:  J A Lenstra; J A van Boxtel; K A Zwaagstra; M Schwerin
Journal:  Anim Genet       Date:  1993-02       Impact factor: 3.169
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  19 in total

1.  Repetitive sequence environment distinguishes housekeeping genes.

Authors:  C Daniel Eller; Moira Regelson; Barry Merriman; Stan Nelson; Steve Horvath; York Marahrens
Journal:  Gene       Date:  2006-10-05       Impact factor: 3.688

2.  The changing tails of a novel short interspersed element in Aedes aegypti: genomic evidence for slippage retrotransposition and the relationship between 3' tandem repeats and the poly(dA) tail.

Authors:  Zhijian Tu; Song Li; Chunhong Mao
Journal:  Genetics       Date:  2004-12       Impact factor: 4.562

3.  Core-SINE blocks comprise a large fraction of monotreme genomes; implications for vertebrate chromosome evolution.

Authors:  Patrick J Kirby; Ian K Greaves; Edda Koina; Paul D Waters; Jennifer A Marshall Graves
Journal:  Chromosome Res       Date:  2008-01-09       Impact factor: 5.239

4.  DNA cleavage and Trp53 differentially affect SINE transcription.

Authors:  Christy R Hagan; Charles M Rudin
Journal:  Genes Chromosomes Cancer       Date:  2007-03       Impact factor: 5.006

5.  Unusual horizontal transfer of a long interspersed nuclear element between distant vertebrate classes.

Authors:  D Kordis; F Gubensek
Journal:  Proc Natl Acad Sci U S A       Date:  1998-09-01       Impact factor: 11.205

6.  Genomic expansion of the Bov-A2 retroposon relating to phylogeny and breed management.

Authors:  Jun-ichi Onami; Masato Nikaido; Hideyuki Mannen; Norihiro Okada
Journal:  Mamm Genome       Date:  2007-04-10       Impact factor: 2.957

7.  CORE-SINEs: eukaryotic short interspersed retroposing elements with common sequence motifs.

Authors:  N Gilbert; D Labuda
Journal:  Proc Natl Acad Sci U S A       Date:  1999-03-16       Impact factor: 11.205

8.  Solution structure of an RNA stem-loop derived from the 3' conserved region of eel LINE UnaL2.

Authors:  Seiki Baba; Masaki Kajikawa; Norihiro Okada; Gota Kawai
Journal:  RNA       Date:  2004-07-23       Impact factor: 4.942

9.  Retroposed SNOfall--a mammalian-wide comparison of platypus snoRNAs.

Authors:  Jürgen Schmitz; Anja Zemann; Gennady Churakov; Heiner Kuhl; Frank Grützner; Richard Reinhardt; Jürgen Brosius
Journal:  Genome Res       Date:  2008-05-07       Impact factor: 9.043

10.  Poxviruses as possible vectors for horizontal transfer of retroposons from reptiles to mammals.

Authors:  Oliver Piskurek; Norihiro Okada
Journal:  Proc Natl Acad Sci U S A       Date:  2007-07-10       Impact factor: 11.205
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