Affiliation:
1. Cluster for Pioneering Research (CPR)
2. RIKEN Center for Integrative Medical Sciences
Abstract
Abstract
Transposons are the mobile DNA that itself encodes genes for their own mobility. During evolution, transposons accumulated their copies on genomic DNA, whereas many of them lost their mobile activity due to deletion or point mutations on the DNA elements required for their mobility. Here, we focused on the transposon-encoded genes which are directly involved in replication, excision, and integration of transposon DNA, i.e. transposon-mobility genes in the C. elegans genome. Among the 62,773 copies of retro- and DNA transposons in the latest assembly of the C. elegans genome (VC2010), 290 transposon-mobility genes conserved the complete open reading frame (ORF) structure. Among them, only 145 genes conserved the critical amino acids at the catalytic core. In contrast to the huge number of transposon copies in the genome, a limited number of genes encoded potentially functional enzymes for transposon mobility. Our finding indicates that a handful number of transposon copies can autonomously transpose in the C. elegans genome.
Publisher
Research Square Platform LLC
Reference100 articles.
1. Ambudkar SV, Kim IW, Xia D, Sauna ZE (2006) The A-loop, a novel conserved aromatic acid subdomain upstream of the Walker A motif in ABC transporters, is critical for ATP binding. FEBS Lett
2. Distribution and phylogeny of penelope-like elements in eukaryotes;Arkhipova IR;Syst Biol,2006
3. Ginger DNA transposons in eukaryotes and their evolutionary relationships with long terminal repeat retrotransposons;Bao W;Mob DNA,2010
4. Repbase Update, a database of repetitive elements in eukaryotic genomes;Bao W;Mob DNA,2015
5. Nucleotide Sequence Analysis of the L Gene of Vesicular Stomatitis Virus (New Jersey Serotype): Identification of Conserved Domains in L Proteins of Nonsegmented Negative-Strand RNA Viruses;Barik S;Virology,1990