Dynamic evolution of tRNAThr-derivedHpaI SINEs and effect on genomes ofOncorhynchus species

Short interspersed nuclear elements (SINEs) are the most abundant non-autonomous retroelements in many vertebrate genomes. The events that led to their integration may have had marked effects on the evolution of host genomes. One well-investigated SINE lineage is in the pacific salmon (genus Oncorhy...

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Published in:Genes & genomics 2009-06, Vol.31 (3), p.217-226
Main Authors: Huh, Jae-Won, Kim, Dae-Soo, Noh, Yu-Na, Park, Sang-Je, Ha, Hong-Seok, Kim, Choong-Gon, Lee, Youn-Ho, Kang, Chang-Keun, Chang, Kyu-Tae, Kim, Heui-Soo
Format: Article
Language:English
Subjects:
Animal Genetics and Genomics
Biomedical and Life Sciences
Human Genetics
Life Sciences
Microbial Genetics and Genomics
Plant Genetics and Genomics
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Summary:Short interspersed nuclear elements (SINEs) are the most abundant non-autonomous retroelements in many vertebrate genomes. The events that led to their integration may have had marked effects on the evolution of host genomes. One well-investigated SINE lineage is in the pacific salmon (genus Oncorhynchus ). Experimental approaches and bioinformatics have been used to investigate the dynamic features and evolutionary impact of these SINEs. Four gene-related Hpa I SINEs in the CD4L-2a, NOS, MHC and IL1B genes were identified by bioinformatics tool. To investigate these SINEs, PCR amplification and sequencing were performed on eight species of the genus Oncorhynchus and one of Salmo . Unexpectedly, the CD4L-2a, MHC and IL-1B gene loci proved to be dimorphic for the Hpa I SINE insertion; this may be attributable to lineage sorting. Sequence transduction and horizontal transmission events also occurred in CD4L-2a . To elucidate the impact of Hpa I SINEs on pacific salmon genomes and the diversity of transcriptomes, 243,668 mRNA sequences from the GenBank database were analyzed. A total of 163 mRNA sequences were identified as fused with Hpa I SINEs. Among these, 87 ESTs were annotated into 41 functional genes. Our data suggest that SINEs could contribute to the genomic diversity of the pacific salmon by exonization and could move more dynamically within this genome by lineage sorting, sequence transduction and horizontal transmission.
ISSN:1976-9571
2092-9293
DOI:10.1007/BF03191193