Chemical conversion of cytidine residues into 4-thiouridines in yeast tRNAPhe. Determination of the modified cytidines.
AUTOR(ES)
Riehl, N
RESUMO
Treatment of yeast phenylalanine tRNA with pressurized hydrogen sulfide results in conversion of cytidine residues into 4-thiouridine residues. Under conditions leading to an average modification of one cytidine per tRNA molecule 9 positions are thiolated. The 4-thiouridine residues are distributed along the tRNA molecule. Four of the reactive cytidines are located in single-stranded regions: Cm32 , C60 , C74 and C75 . The five others are located in base pairs: C2, C27, C56 , C61 and C63 . Importance of replacement of an amino group by a thiol group on hydrogen bonding and on biological activity of the modified tRNA is discussed.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=318849Documentos Relacionados
- Selective binding of amino acid residues to tRNAPhe.
- Role of ribothymidine in mammalian tRNAPhe.
- RNA-ligant interactions. (I) Magnesium binding sites in yeast tRNAPhe.
- The electrostatic molecular potential of yeast tRNAPhe. (I). The potential due to the phosphate backbone.
- Replacement of wybutine by hydrazines and its effect on the active conformation of yeast tRNAPhe.