Abstract
BackgroundGroup II introns are mobile retroelements, capable of invading new sites in DNA. They are self-splicing ribozymes that complex with an intron-encoded protein to form a ribonucleoprotein that targets DNA after splicing. These molecules can invade DNA site-specifically, through a process known as retrohoming, or can invade ectopic sites through retrotransposition. Retrotransposition, in particular, can be strongly influenced by both environmental and cellular factors.ResultsTo investigate host factors that influence retrotransposition, we performed random insertional mutagenesis using the ISS1 transposon to generate a library of over 1000 mutants in Lactococcus lactis, the native host of the Ll.LtrB group II intron. By screening this library, we identified 92 mutants with increased retrotransposition frequencies (RTP-ups). We found that mutations in amino acid transport and metabolism tended to have increased retrotransposition frequencies. We further explored a subset of these RTP-up mutants, the most striking of which is a mutant in the ribosomal RNA methyltransferase rlmH, which exhibited a reproducible 20-fold increase in retrotransposition frequency. In vitro and in vivo experiments revealed that ribosomes in the rlmH mutant were defective in the m3Ψ modification and exhibited reduced binding to the intron RNA.ConclusionsTaken together, our results reinforce the importance of the native host organism in regulating group II intron retrotransposition. In particular, the evidence from the rlmH mutant suggests a role for ribosome modification in limiting rampant retrotransposition.
Highlights
Group II introns are mobile retroelements, capable of invading new sites in DNA
Mutant library construction and initial characterization To identify host genes affecting Ll.LtrB group II intron retrotransposition efficiency, transposon insertion mutants were generated in the L. lactis IL1403 strain carrying the intron donor plasmid and a pG+host plasmid carrying the insertion element ISS1 [23] (Fig. 1c and Table 1; Additional File 1: Fig. S1)
We describe an example of how interactions between ribosomes and group II introns can limit retrotransposition to protect the host, these introns are not the only retrotransposons whose transposition is modulated by ribosomes: Alu elements, nonautonomous retrotransposons that are dependent on the protein activity of the autonomous LINE retrotransposons, can hijack and stall ribosomes translating LINEs in order to steal the ORF2 protein needed for Alu mobility [53, 54]
Summary
Group II introns are mobile retroelements, capable of invading new sites in DNA. They are selfsplicing ribozymes that complex with an intron-encoded protein to form a ribonucleoprotein that targets DNA after splicing. These molecules can invade DNA site-through a process known as retrohoming, or can invade ectopic sites through retrotransposition. The catalytically active intron RNA, together with its intron-encoded protein (IEP), form a ribonucleoprotein (RNP) complex where the IEP assists with splicing and mobility of the intron [2, 5]. The spliced and fully-formed RNP can act as a retroelement capable of invading DNA
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