Structural and functional analysis of a new retrotransposon class in Drosophila species

V. K. Ravin; M. B. Sukchev; E. S. Zelentsova; N. G. Shostak; M. B. Evgen'Ev

doi:10.1134/S0026893309020150

Structural and functional analysis of a new retrotransposon class in Drosophila species

V. K. Ravin, M. B. Sukchev, E. S. Zelentsova, N. G. Shostak, M. B. Evgen'Ev

Research output: Contribution to journal › Article › peer-review

Abstract

Several copies of the Penelope transposable element, previously described in Drosophila virilis, have been studied in different D. virilis strains and D. melanogaster strains transformed with P-based constructs bearing a full-size Penelope copy. Most Penelope copies in both species have large terminal inverted repeats (TIRs) and deletions of various sizes at the 5' ends of their ORFs. Junctions between TIRs and ORFs usually have microhomologies of various lengths, which allowed a hypothesis explaining the emergence of these complex structures at the molecular level to be put forward. Most Penelope copies have a 34 bp long direct repeat at the ORF ends. Full-size and truncated Penelope copies are usually surrounded by target site duplications of various lengths.

Original language	English
Pages (from-to)	329-338
Number of pages	10
Journal	Molecular Biology
Volume	43
Issue number	2
DOIs	https://doi.org/10.1134/S0026893309020150
State	Published - Apr 2009
Externally published	Yes

Keywords

Drosophila
Evolution
Retrotransposons
Transposable elements

ASJC Scopus subject areas

Biophysics
Structural Biology

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10.1134/S0026893309020150

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title = "Structural and functional analysis of a new retrotransposon class in Drosophila species",

abstract = "Several copies of the Penelope transposable element, previously described in Drosophila virilis, have been studied in different D. virilis strains and D. melanogaster strains transformed with P-based constructs bearing a full-size Penelope copy. Most Penelope copies in both species have large terminal inverted repeats (TIRs) and deletions of various sizes at the 5' ends of their ORFs. Junctions between TIRs and ORFs usually have microhomologies of various lengths, which allowed a hypothesis explaining the emergence of these complex structures at the molecular level to be put forward. Most Penelope copies have a 34 bp long direct repeat at the ORF ends. Full-size and truncated Penelope copies are usually surrounded by target site duplications of various lengths.",

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T1 - Structural and functional analysis of a new retrotransposon class in Drosophila species

AU - Ravin, V. K.

AU - Sukchev, M. B.

AU - Zelentsova, E. S.

AU - Shostak, N. G.

AU - Evgen'Ev, M. B.

PY - 2009/4

Y1 - 2009/4

N2 - Several copies of the Penelope transposable element, previously described in Drosophila virilis, have been studied in different D. virilis strains and D. melanogaster strains transformed with P-based constructs bearing a full-size Penelope copy. Most Penelope copies in both species have large terminal inverted repeats (TIRs) and deletions of various sizes at the 5' ends of their ORFs. Junctions between TIRs and ORFs usually have microhomologies of various lengths, which allowed a hypothesis explaining the emergence of these complex structures at the molecular level to be put forward. Most Penelope copies have a 34 bp long direct repeat at the ORF ends. Full-size and truncated Penelope copies are usually surrounded by target site duplications of various lengths.

AB - Several copies of the Penelope transposable element, previously described in Drosophila virilis, have been studied in different D. virilis strains and D. melanogaster strains transformed with P-based constructs bearing a full-size Penelope copy. Most Penelope copies in both species have large terminal inverted repeats (TIRs) and deletions of various sizes at the 5' ends of their ORFs. Junctions between TIRs and ORFs usually have microhomologies of various lengths, which allowed a hypothesis explaining the emergence of these complex structures at the molecular level to be put forward. Most Penelope copies have a 34 bp long direct repeat at the ORF ends. Full-size and truncated Penelope copies are usually surrounded by target site duplications of various lengths.

KW - Drosophila

KW - Evolution

KW - Retrotransposons

KW - Transposable elements

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DO - 10.1134/S0026893309020150

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EP - 338

JO - Molecular Biology

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Structural and functional analysis of a new retrotransposon class in Drosophila species

Abstract

Keywords

ASJC Scopus subject areas

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