Accepted name: tRNAIle-lysidine synthase
Reaction: [tRNAIle2]-cytidine34 + L-lysine + ATP = [tRNAIle2]-lysidine34 + AMP + diphosphate + H2O
Glossary: lysidine = N6-(4-amino-1-β-D-ribofuranosylpyrimidin-2-ylidene)-L-lysine
Other name(s): TilS; mesJ (gene name); yacA (gene name); isoleucine-specific transfer ribonucleate lysidine synthetase; tRNAIle-lysidine synthetase
Systematic name: L-lysine:[tRNAIle2]-cytidine34 ligase (AMP-forming)
Comments: The bacterial enzyme modifies the wobble base of the CAU anticodon of tRNAIle at the oxo group in position 2 of cytidine34. This modification determines both codon and amino acid specificities of tRNAIle.
1.  Ikeuchi, Y., Soma, A., Ote, T., Kato, J., Sekine, Y. and Suzuki, T. molecular mechanism of lysidine synthesis that determines tRNA identity and codon recognition. Mol. Cell 19 (2005) 235–246. [PMID: 16039592]
2.  Salowe, S.P., Wiltsie, J., Hawkins, J.C. and Sonatore, L.M. The catalytic flexibility of tRNAIle-lysidine synthetase can generate alternative tRNA substrates for isoleucyl-tRNA synthetase. J. Biol. Chem. 284 (2009) 9656–9662. [PMID: 19233850]
3.  Nakanishi, K., Fukai, S., Ikeuchi, Y., Soma, A., Sekine, Y., Suzuki, T. and Nureki, O. Structural basis for lysidine formation by ATP pyrophosphatase accompanied by a lysine-specific loop and a tRNA-recognition domain. Proc. Natl. Acad. Sci. USA 102 (2005) 7487–7492. [PMID: 15894617]
4.  Soma, A., Ikeuchi, Y., Kanemasa, S., Kobayashi, K., Ogasawara, N., Ote, T., Kato, J., Watanabe, K., Sekine, Y. and Suzuki, T. An RNA-modifying enzyme that governs both the codon and amino acid specificities of isoleucine tRNA. Mol. Cell 12 (2003) 689–698. [PMID: 14527414]
5.  Nakanishi, K., Bonnefond, L., Kimura, S., Suzuki, T., Ishitani, R. and Nureki, O. Structural basis for translational fidelity ensured by transfer RNA lysidine synthetase. Nature 461 (2009) 1144–1148. [PMID: 19847269]
[EC created 2011]
Accepted name: tRNAIle2-agmatinylcytidine synthase
Reaction: ATP + agmatine + [tRNAIle2]-cytidine34 + H2O = [tRNAIle2]-2-agmatinylcytidine34 + AMP + 2 phosphate
Other name(s): TiaS; AF2259; tRNAIle-2-agmatinylcytidine synthetase; tRNAIle-agm2C synthetase; tRNAIle-agmatidine synthetase
Systematic name: agmatine:[tRNAIle]-cytidine34 ligase
Comments: The enzyme from the archaeon Archaeoglobus fulgidus modifies the wobble base of the CAU anticodon of the archaeal tRNAIle2 at the oxo group in position 2 of cytidine34. This modification is crucial for accurate decoding of the genetic code. In bacteria EC, tRNAIle-lysidine synthase, catalyses the modification of [tRNAIle2]-cytidine34 to [tRNAIle2]-lysidine34 .
1.  Ikeuchi, Y., Kimura, S., Numata, T., Nakamura, D., Yokogawa, T., Ogata, T., Wada, T., Suzuki, T. and Suzuki, T. Agmatine-conjugated cytidine in a tRNA anticodon is essential for AUA decoding in archaea. Nat. Chem. Biol. 6 (2010) 277–282. [PMID: 20139989]
2.  Terasaka, N., Kimura, S., Osawa, T., Numata, T. and Suzuki, T. Biogenesis of 2-agmatinylcytidine catalyzed by the dual protein and RNA kinase TiaS. Nat. Struct. Mol. Biol. 18 (2011) 1268–1274. [PMID: 22002222]
3.  Osawa, T., Inanaga, H., Kimura, S., Terasaka, N., Suzuki, T. and Numata, T. Crystallization and preliminary X-ray diffraction analysis of an archaeal tRNA-modification enzyme, TiaS, complexed with tRNA(Ile2) and ATP. Acta Crystallogr. Sect. F Struct. Biol. Cryst. Commun. 67 (2011) 1414–1416. [PMID: 22102245]
[EC created 2013]