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Literature DB >> 20139989

Agmatine-conjugated cytidine in a tRNA anticodon is essential for AUA decoding in archaea.

Yoshiho Ikeuchi¹, Satoshi Kimura, Tomoyuki Numata, Daigo Nakamura, Takashi Yokogawa, Toshihiko Ogata, Takeshi Wada, Takeo Suzuki, Tsutomu Suzuki.

Abstract

A modified base at the first (wobble) position of some tRNA anticodons is critical for deciphering the genetic code. In eukaryotes and eubacteria, AUA codons are decoded by tRNAsIle with modified bases pseudouridine (and/or inosine) and lysidine, respectively. The mechanism by which archaeal species translate AUA codons is unclear. We describe a polyamine-conjugated modified base, 2-agmatinylcytidine (agm(2)C or agmatidine), at the wobble position of archaeal tRNA(Ile) that decodes AUA codons specifically. We demonstrate that archaeal cells use agmatine to synthesize agm(2)C of tRNA(Ile). We also identified a new enzyme, tRNA(Ile)-agm(2)C synthetase (TiaS), that catalyzes agm(2)C formation in the presence of agmatine and ATP. Although agm(2)C is chemically similar to lysidine, TiaS constitutes a distinct class of enzyme from tRNA(Ile)-lysidine synthetase (TilS), suggesting that the decoding systems evolved convergently across domains.

Entities: Chemical Gene Species

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Year: 2010 PMID： 20139989 DOI： 10.1038/nchembio.323

Source DB: PubMed Journal: Nat Chem Biol ISSN： 1552-4450 Impact factor: 15.040

27 in total

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Review 4. Polyamines in microorganisms.

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