Evidence of multiple retrotransposons in two litopenaeid species

Summary Retrotransposons encompass a specific class of mobile genetic elements that are widespread across eukaryotic genomes. The impact of the varied types of retrotransposons on these genomes is just beginning to be deciphered. In a step towards understanding their role in litopenaeid shrimp, we have herein identified nine non‐LTR retrotransposons, among which several appear to exist outside the standard defined clades. Two Litopenaeus stylirostris elements were discovered through degenerate PCR amplification using previously defined non‐LTR degenerate primers, and through primers designed from a RAPD‐derived sequence. A third genomic L. stylirostris element was identified using specific priming from an amplification protocol. These three PCR‐derived sequences showed conserved domains of the non‐LTR reverse transcriptase gene. In silico searching of genome databases and subsequent contig construction yielded six non‐LTR retrotransposons (both genomic and expressed) in the Litopenaeus vannamei genome that also exhibited the highly conserved domains found in our PCR‐derived sequences. Phylogenetic placement among representatives from all non‐LTR clades showed a possibly novel monophyletic group that included five of our nine sequences. This group, which included elements from both L. stylirostris and L. vannamei, appeared most closely related to the highly active RTE clade. Our remaining four sequences placed in the CR1 and I clades of retrotransposons, with one showing strong similarity to ancient Penelope elements. This research describes three newly discovered retrotransposons in the L. stylirostris genome. Phylogenetic analysis clusters these in a monophyletic grouping with retrotransposons previously described from two closely related species, L. vannamei and Penaeus monodon .