期刊
JOURNAL OF MOLECULAR EVOLUTION
卷 69, 期 5, 页码 497-504出版社
SPRINGER
DOI: 10.1007/s00239-009-9294-6
关键词
tRNA; Intron-containing tRNA; Split tRNA; Permuted tRNA; Evolution; Archaea; Cyanidioschyzon merolae
资金
- Ministry of Education, Culture, Sports, Science and Technology of Japan
- Yamagata Prefecture and Tsuruoka City, Japan
The following unusual tRNAs have recently been discovered in the genomes of Archaea and primitive Eukaryota: multiple-intron-containing tRNAs, which have more than one intron; split tRNAs, which are produced from two pieces of RNA transcribed from separate genes; tri-split tRNAs, which are produced from three separate genes; and permuted tRNA, in which the 50 and 30 halves are encoded with permuted orientations within a single gene. All these disrupted tRNA genes can form mature contiguous tRNA, which is aminoacylated after processing by cis or trans splicing. The discovery of such tRNA disruptions has raised the question of when and why these complex tRNA processing pathways emerged during the evolution of life. Many previous reports have noted that tRNA genes contain a single intron in the anticodon loop region, a feature common throughout all three domains of life, suggesting an ancient trait of the last universal common ancestor. In this context, these unique tRNA disruptions recently found only in Archaea and primitive Eukaryota provide new insight into the origin and evolution of tRNA genes, encouraging further research in this field. In this paper, we summarize the phylogeny, structure, and processing machinery of all known types of disrupted tRNAs and discuss possible evolutionary scenarios for these tRNA genes.
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