Literature DB >> 807911

Biosynthetic pathway of ribothymidine in B. subtilis and M. lysodeikticus involving different coenzymes for transfer RNA and ribosomal RNA.

W Schmidt, H H Arnold, H Kersten.   

Abstract

Ribothymidine (m5u) in tRNAs of M. lysodeikticus is not derived from methionine. The results indicate that as in tRNAs of B. subtilis a tetrahydrofolate derivative is involved in the formation of m5U, whereas methionine serves as precursor in the biosynthesis of m7G, m1A and m6A. Ribothymidine also occurs in 23S rRNA of B. subtilis and M. lysodeikticus. Approximately 2-3 moles of m5U residues were found per mole of 23S rRNA. In contrast to m5U residues present in tRNAs of B. subtilis and M. lysodeikticus, ribothymidine in 23S rRNA of these organisms and of E. coli is synthesized via S-adenosylmethionine. m6A and m1G, present in E. coli rRNAs, were not detected in rRNAs of (methyl-14C) methionine labeled B. subtilis and M. lysodeikticus.

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Year:  1975        PMID: 807911      PMCID: PMC343492          DOI: 10.1093/nar/2.7.1043

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  11 in total

1.  THE ENZYMATIC METHYLATION OF RIBONUCLEIC ACID AND DEOXYRIBONUCLEIC ACID. 3. PURIFICATION OF SOLUBLE RIBONUCLEIC ACID-METHYLATING ENZYMES.

Authors:  J HURWITZ; M GOLD; M ANDERS
Journal:  J Biol Chem       Date:  1964-10       Impact factor: 5.157

2.  Occurrence and biosynthesis of ribothymidine in tRNAs of B. subtilis.

Authors:  H H Arnold; W Schmidt; H Kersten
Journal:  FEBS Lett       Date:  1975-03-15       Impact factor: 4.124

3.  Base analysis of RNA by 3H postlabeling--a study of ribothymidine content and degree of base methylation of 4 S RNA.

Authors:  E Randerath; L L Chia; H P Morris; K Randerath
Journal:  Biochim Biophys Acta       Date:  1974-10-11

4.  Nucleotide sequences from specific areas of the 16S and 23S ribosomal RNAs of E. coli.

Authors:  P Fellner
Journal:  Eur J Biochem       Date:  1969-11

5.  An evolutionary study of the methylation of transfer and ribosomal ribonucleic acid in prokaryote and eukaryote organisms.

Authors:  M Klagsbrun
Journal:  J Biol Chem       Date:  1973-04-10       Impact factor: 5.157

6.  The effect of growth temperatures on the in vivo ribose methylation of Bacillus stearothermophilus transfer RNA.

Authors:  P F Agris; H Koh; D Söll
Journal:  Arch Biochem Biophys       Date:  1973-01       Impact factor: 4.013

7.  Inhibition of the tetrahydrofolate-dependent biosynthesis of ribothymidine in tRNAs of B. subtilis and M. lysodeikticus by trimethoprim.

Authors:  H H Arnold; H Kersten
Journal:  FEBS Lett       Date:  1975-05-01       Impact factor: 4.124

8.  The occurrence of ribothymidine, 1-methyladenosine, methylated guanosines and the corresponding methyltransferases in E. coli and Bacillus subtilis.

Authors:  H Arnold; H Kersten
Journal:  FEBS Lett       Date:  1973-10-01       Impact factor: 4.124

9.  The occurrence of a transmethylation reaction not involving S-adenosylmethionine in the formation of ribothymidine in Bacillus subtilis transfer-RNA.

Authors:  J M Romeo; A S Delk; J C Rabinowitz
Journal:  Biochem Biophys Res Commun       Date:  1974-12-23       Impact factor: 3.575

10.  Biosynthesis of ribosylthymine in the transfer RNA of Streptococcus faecalis: a folate-dependent methylation not involving S-adenosylmethionine.

Authors:  A S Delk; J C Rabinowitz
Journal:  Proc Natl Acad Sci U S A       Date:  1975-02       Impact factor: 11.205
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  9 in total

Review 1.  The dynamic epitranscriptome: N6-methyladenosine and gene expression control.

Authors:  Kate D Meyer; Samie R Jaffrey
Journal:  Nat Rev Mol Cell Biol       Date:  2014-04-09       Impact factor: 94.444

2.  Tetrahydrofolate-dependent biosynthesis of ribothymidine in transfer ribonucleic acids of Gram-positive bacteria.

Authors:  W Schmidt; H H Arnold; H Kersten
Journal:  J Bacteriol       Date:  1977-01       Impact factor: 3.490

3.  Occurrence of 1-methyladenosine and absence of ribothymidine in transfer ribonucleic acid of Mycobacterium smegmatis.

Authors:  B R Vani; T Ramakrishnan; Y Taya; S Noguchi; Z Yamaizumi; S Nishimura
Journal:  J Bacteriol       Date:  1979-03       Impact factor: 3.490

4.  On the biosynthesis of 5-methoxyuridine and uridine-5-oxyacetic acid in specific procaryotic transfer RNAs.

Authors:  K Murao; H Ishikura; M Albani; H Kersten
Journal:  Nucleic Acids Res       Date:  1978-04       Impact factor: 16.971

Review 5.  Epigenetic regulations in mammalian spermatogenesis: RNA-m6A modification and beyond.

Authors:  Yiqian Gui; Shuiqiao Yuan
Journal:  Cell Mol Life Sci       Date:  2021-04-09       Impact factor: 9.261

6.  Identification of a novel gene encoding a flavin-dependent tRNA:m5U methyltransferase in bacteria--evolutionary implications.

Authors:  Jaunius Urbonavicius; Stéphane Skouloubris; Hannu Myllykallio; Henri Grosjean
Journal:  Nucleic Acids Res       Date:  2005-07-18       Impact factor: 16.971

Review 7.  Genetic Regulation of N6-Methyladenosine-RNA in Mammalian Gametogenesis and Embryonic Development.

Authors:  Yuguang Chang; Mingliang Yi; Jing Wang; Zhikun Cao; Tingting Zhou; Wei Ge; Zafir Muhammad; Zijun Zhang; Yanqin Feng; Zihui Yan; Massimo De Felici; Wei Shen; Hongguo Cao
Journal:  Front Cell Dev Biol       Date:  2022-03-14

Review 8.  Methyladenosine Modification in RNAs: From Regulatory Roles to Therapeutic Implications in Cancer.

Authors:  Xiaolin Qu; Yongqiu Zhang; Xianzheng Sang; Ding Ren; Hong Zhao; Stephen T C Wong
Journal:  Cancers (Basel)       Date:  2022-06-29       Impact factor: 6.575

9.  The reverse transcription signature of N-1-methyladenosine in RNA-Seq is sequence dependent.

Authors:  Ralf Hauenschild; Lyudmil Tserovski; Katharina Schmid; Kathrin Thüring; Marie-Luise Winz; Sunny Sharma; Karl-Dieter Entian; Ludivine Wacheul; Denis L J Lafontaine; James Anderson; Juan Alfonzo; Andreas Hildebrandt; Andres Jäschke; Yuri Motorin; Mark Helm
Journal:  Nucleic Acids Res       Date:  2015-09-13       Impact factor: 16.971
  9 in total

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