| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5907392 | Gene | 2012 | 7 Pages |
The zebrafish long interspersed element (LINE), ZfL2-1, which belongs to the L2 clade, contains two open reading frames, ORF1 and ORF2. ORF1 encodes a protein containing a coiled-coil motif and an esterase domain, whereas ORF2 encodes a protein containing an endonuclease and a reverse transcriptase domain. To elucidate the functional significance of ORF1 in retrotransposition, we constructed many variants of ZfL2-1 and examined their retrotransposition ability. We concluded: 1) the ORF1 protein is not essential for ZfL2-1 retrotransposition in cultured cells; 2) the translation of ORF1 is required for the translation of ORF2; and 3) ORF2 translation probably occurs via suppression of the ORF1 stop codon, the efficiency of which is influenced by the context of the sequence juxtaposed to the 3â² side of the stop codon. These results offer a new perspective on the evolution of the L2 clade LINEs.
⺠The ORF1 protein has no apparent essential function in retrotransposition of ZfL2-1. ⺠An upstream coding sequence, however, is required for retrotransposition of ZfL2-1. ⺠We propose a model for the translation of ORF2 through the ORF1 in ZfL2-1.
