CsRn1, a Novel Active Retrotransposon in a Parasitic Trematode, Clonorchis sinensis, Discloses a New Phylogenetic Clade of Ty3/gypsy-like LTR Retrotransposons

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Molecular Biology and Evolution 18:1474-1483 (2001)
© 2001 Society for Molecular Biology and Evolution

CsRn1, a Novel Active Retrotransposon in a Parasitic Trematode, Clonorchis sinensis, Discloses a New Phylogenetic Clade of Ty3/gypsy-like LTR Retrotransposons

Young-An Bae, Seo-Yun Moon, Yoon Kong, Seung-Yull Cho and Mun-Gan Rhyu

Department of Microbiology, College of Medicine, Catholic University of Korea, Seoul, Korea
Department of Molecular Parasitology, Sungkyunkwan University School of Medicine, Suwon, Korea

We screened the genome of a trematode, Clonorchis sinensis,in order to identify novel retrotransposons and thereby provideadditional information on retrotransposons for comprehensivephylogenetic study. Considering the vast potential of retrotransposonsto generate genetically variable regions among individual genomes,randomly amplified polymorphic DNAs (RAPDs) detected by arbitrarilyprimed polymerase chain reactions were selected as candidatesfor retrotransposon-related sequences. From RAPD analysis, weisolated and characterized a novel retrotransposon in C. sinensisas the first member of uncorrupted long-terminal-repeat (LTR)retrotransposons in phylum Platyhelminthes. The retrotransposon,which was named Clonorchis sinensis Retrotransposon 1 (CsRn1),showed a genomewide distribution and had a copy number of morethan 100 per haploid genome. CsRn1 encoded an uninterruptedopen reading frame (ORF) of 1,304 amino acids, and the deducedORF exhibited similarities to the pol proteins of Ty3/gypsy-likeLTR retrotransposons. The mobile activity of master copies waspredicted by sequence analysis and confirmed by the presenceof mRNA transcripts. Phylogenetic analysis of Ty3/gypsy-likeLTR retrotransposons detected a new clade comprising CsRn1,Kabuki of Bombyx mori, and an uncharacterized element of Drosophilamelanogaster. With its high repetitiveness and preserved mobileactivity, it is proposed that CsRn1 may play a significant rolein the genomic evolution of C. sinensis.

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