2014
DOI: 10.1128/ecosalplus.esp-0007-2013
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Transfer RNA Modification: Presence, Synthesis, and Function

Abstract: Transfer RNA (tRNA) from all organisms on this planet contains modified nucleosides, which are derivatives of the four major nucleosides. tRNA from Escherichia coli/Salmonella enterica serovar Typhimurium contains 33 different modified nucleosides, which are all, except one (Queuosine [Q]), synthesized on an oligonucleotide precursor, which by specific enzymes later matures into tRNA. The structural genes for these enzymes are found in mono- and polycistronic operons, the latter of which have a complex transcr… Show more

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Cited by 107 publications
(156 citation statements)
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“…Modified residues of the third class are found at unique positions of only a limited group of tRNA species and the corresponding modification enzymes are, as expected, very diverse and often species-specific. 10 The distribution of modified residues in tRNAs of different groups of organisms was examined several decades ago. [11][12][13] The previous compilations demonstrated notable differences in the modification patterns of tRNA originating from organisms distantly related in evolution, the diversity of modifications was noted especially at position 34 and conserved purine at position 37 of anticodon (reviewed in ref.…”
Section: Introductionmentioning
confidence: 99%
“…Modified residues of the third class are found at unique positions of only a limited group of tRNA species and the corresponding modification enzymes are, as expected, very diverse and often species-specific. 10 The distribution of modified residues in tRNAs of different groups of organisms was examined several decades ago. [11][12][13] The previous compilations demonstrated notable differences in the modification patterns of tRNA originating from organisms distantly related in evolution, the diversity of modifications was noted especially at position 34 and conserved purine at position 37 of anticodon (reviewed in ref.…”
Section: Introductionmentioning
confidence: 99%
“…These results suggest that the diverse tRNA thiolation processes in archaea and eukaryotic cytosols share a common mechanism dependent on a [3Fe-4S] cluster for sulfur transfer. U nucleoside is found at position 8 of most bacterial and archaeal tRNAs and functions as a photosensor for near-UV irradiation (1). Upon irradiation, the s 4 U8 cross-links with the nearby cytidine at position 13.…”
mentioning
confidence: 99%
“…Upon irradiation, the s 4 U8 cross-links with the nearby cytidine at position 13. This reaction causes conformational changes and prevents aminoacylation of tRNAs, resulting in accumulations of uncharged tRNAs that trigger stringent responses (1) U acts as an identity element in aminoacylation reactions (5-7), promotes tRNA binding to the ribosomal A-site (7), and prevents frameshifting during translation (8). Yeast mutants lacking the 2-thio modification have pleotropic phenotypes, such as defects in invasive growth (9), hypersensitivity to high temperature, rapamycin, caffeine, or oxidative stress (10,11), inability to maintain normal metabolic cycles (12), and protein misfolding and aggregation (13).…”
mentioning
confidence: 99%
“…39 It may affect translational efficiency of rare codons that are intrinsically inefficient in decoding. 19,135 The s 2 C 32 modification has also been found in archaeal tRNA. 136 Pseudouridine, Ψ, although present at the anticodon wobble position 34, is another modification found predominantly at positions 32, 38 and 39.…”
Section: Discussionmentioning
confidence: 89%
“…The s 2 C 32 modification is present in E. coli and Salmonella enterica tRNA Arg ICG which decodes CGU/C and CGA in the absence of s 2 C 32 , tRNA Arg CCG that decodes CGG, tRNA Arg with the modified anticodon mnm 5 UCU that decodes AGA/G, and tRNA Ser GCU decoding AGC/U. 19,39 The presence of s 2 C 32 negates I 34 wobbling to A3. 39 It may affect translational efficiency of rare codons that are intrinsically inefficient in decoding.…”
Section: Discussionmentioning
confidence: 99%