Publications

• A dual-specificity pseudouridine synthase: an Escherichia coli synthase purified and cloned on the basis of its specificity for psi 746 in 23S RNA is also specific for psi 32 in tRNA(phe).

  Wrzesinski J., Nurse K., Bakin A., Lane B.G., Ofengand J.

  An Escherichia coli pseudouridine (psi) synthase, which forms both psi 746 in E. coli 23S ribosomal RNA and psi 32 in tRNA(Phe), has been isolated and cloned. The enzyme contains 219 amino acids and has a calculated MW of 24,432 Da. Amino acid sequence comparison with the three other psi synthases ... >> More

  An Escherichia coli pseudouridine (psi) synthase, which forms both psi 746 in E. coli 23S ribosomal RNA and psi 32 in tRNA(Phe), has been isolated and cloned. The enzyme contains 219 amino acids and has a calculated MW of 24,432 Da. Amino acid sequence comparison with the three other psi synthases that have been cloned to date, two for tRNA and one for 16S RNA, did not reveal any common sequence motifs, despite the catalysis of a common reaction. The gene was cloned behind a (His)6 leader for affinity purification. Upon overexpression, most of the enzyme remained soluble in the cell cytoplasm and could be purified to homogeneity on a Ni(2+)-containing resin. The enzyme reacted with both full-length 23S RNA or a fragment from residues 1-847, forming 1 mol psi/mol RNA at position 746, a normal site for psi. The enzyme has no dependence on Mg2+. The same yield was obtained in 1 mM EDTA as in 10 mM Mg2+, and the rate was faster in EDTA than in Mg2+. Full-length 16S RNA or fragments 1-526 or 1-678, as well as tRNA(Val) transcripts, were not modified in either EDTA or Mg2+. tRNA(Phe) transcripts, however, were modified with a yield of 1 mol psi/mol transcript at a rate in EDTA like that of 23S RNA. Sequencing showed all of the psi to be at position 32, a normal site for psi in this tRNA. Both 23S rRNA psi 746 and tRNA psi 32 occur in single-stranded segments of the same sequence, psi UGAAAA, closed by a stem. Therefore, this synthase may require for recognition only a short stretch of primary sequence 3' to the site of pseudouridylation. This is the first example of a dual-specificity modifying enzyme for RNA, that is, one which is specific for a single site in one RNA, and equally site-specific in a second class of RNA. The essentiality of these psi residues can now be assessed by disruption of the synthase gene. << Less

  RNA 1:437-448(1995) [PubMed] [EuropePMC]

  This publication is cited by 1 other entry.

• Functional effect of deletion and mutation of the Escherichia coli ribosomal RNA and tRNA pseudouridine synthase RluA.

  Raychaudhuri S., Niu L., Conrad J., Lane B.G., Ofengand J.

  The Escherichia coli gene rluA, coding for the pseudouridine synthase RluA that forms 23 S rRNA pseudouridine 746 and tRNA pseudouridine 32, was deleted in strains MG1655 and BL21/DE3. The rluA deletion mutant failed to form either 23 S RNA pseudouridine 746 or tRNA pseudouridine 32. Replacement o ... >> More

  The Escherichia coli gene rluA, coding for the pseudouridine synthase RluA that forms 23 S rRNA pseudouridine 746 and tRNA pseudouridine 32, was deleted in strains MG1655 and BL21/DE3. The rluA deletion mutant failed to form either 23 S RNA pseudouridine 746 or tRNA pseudouridine 32. Replacement of rluA in trans on a rescue plasmid restored both pseudouridines. Therefore, RluA is the sole protein responsible for the in vivo formation of 23 S RNA pseudouridine 746 and tRNA pseudouridine 32. Plasmid rescue of both rluA-strains using an rluA gene carrying asparagine or threonine replacements for the highly conserved aspartate 64 demonstrated that neither mutant could form 23 S RNA pseudouridine 746 or tRNA pseudouridine 32 in vivo, showing that this conserved aspartate is essential for enzyme-catalyzed formation of both pseudouridines. In vitro assays using overexpressed wild-type and mutant synthases confirmed that only the wild-type protein was active despite the overexpression of wild-type and mutant synthases in approximately equal amounts. There was no difference in exponential growth rate between wild-type and MG1655(rluA-) either in rich or minimal medium at 24, 37, or 42 degrees C, but when both strains were grown together, a strong selection against the deletion strain was observed. << Less

  J. Biol. Chem. 274:18880-18886(1999) [PubMed] [EuropePMC]

• Crystal structure of pseudouridine synthase RluA: indirect sequence readout through protein-induced RNA structure.

  Hoang C., Chen J., Vizthum C.A., Kandel J.M., Hamilton C.S., Mueller E.G., Ferre-D'Amare A.R.

  RluA is a dual-specificity enzyme responsible for pseudouridylating 23S rRNA and several tRNAs. The 2.05 A resolution structure of RluA bound to a substrate RNA comprising the anticodon stem loop of tRNA(Phe) reveals that enzyme binding induces a dramatic reorganization of the RNA. Instead of adop ... >> More

  RluA is a dual-specificity enzyme responsible for pseudouridylating 23S rRNA and several tRNAs. The 2.05 A resolution structure of RluA bound to a substrate RNA comprising the anticodon stem loop of tRNA(Phe) reveals that enzyme binding induces a dramatic reorganization of the RNA. Instead of adopting its canonical U turn conformation, the anticodon loop folds into a new structure with a reverse-Hoogsteen base pair and three flipped-out nucleotides. Sequence conservation, the cocrystal structure, and the results of structure-guided mutagenesis suggest that RluA recognizes its substrates indirectly by probing RNA loops for their ability to adopt the reorganized fold. The planar, cationic side chain of an arginine intercalates between the reverse-Hoogsteen base pair and the bottom pair of the anticodon stem, flipping the nucleotide to be modified into the active site of RluA. Sequence and structural comparisons suggest that pseudouridine synthases of the RluA, RsuA, and TruA families employ an equivalent arginine for base flipping. << Less

  Mol Cell 24:535-545(2006) [PubMed] [EuropePMC]

  This publication is cited by 1 other entry.