16S ribosomal RNA pseudouridine synthase RsuA of Escherichia coli: Deletion, mutation of the conserved Asp102 residue, and sequence comparison among all other pseudouridine synthases

JOEL CONRAD; LINGHAO NIU; KENNETH RUDD; BYRON G. LANE; JAMES OFENGAND

doi:10.1017/S1355838299990167

Abstract

The gene for RsuA, the pseudouridine synthase that converts U516 to pseudouridine in 16S ribosomal RNA of Escherichia coli, has been deleted in strains MG1655 and BL21/DE3. Deletion of this gene resulted in the specific loss of pseudouridine516 in both cell lines, and replacement of the gene in trans on a plasmid restored the pseudouridine. Therefore, rsuA is the only gene in E. coli with the ability to produce a protein capable of forming pseudouridine516. There was no effect on the growth rate of rsuA− MG1655 either in rich or minimal medium at either 24, 37, or 42 °C. Plasmid rescue of the BL21/DE3 rsuA− strain using pET15b containing an rsuA gene with aspartate102 replaced by asparagine or threonine demonstrated that neither mutant was active in vivo. This result supports a role for this aspartate, located in a unique GRLD sequence in this gene, at the catalytic center of the synthase. Induction of wild-type and the two mutant synthases in strain BL21/DE3 from genes in pET15b yielded a strong overexpression of all three proteins in approximately equal amounts showing that the mutations did not affect production of the protein in vivo and thus that the lack of activity was not due to a failure to produce a gene product. Aspartate102 is found in a conserved motif present in many pseudouridine synthases. The conservation and distribution of this motif in nature was assessed.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Massenet, Séverine Ansmant, Isabelle Motorin, Yuri and Branlant, Christiane 1999. The first determination of pseudouridine residues in 23S ribosomal RNA from hyperthermophilic Archaea Sulfolobus acidocaldarius. FEBS Letters, Vol. 462, Issue. 1-2, p. 94.

Raychaudhuri, Saumya Niu, Linghao Conrad, Joel Lane, Byron G. and Ofengand, James 1999. Functional Effect of Deletion and Mutation of theEscherichia coli Ribosomal RNA and tRNA Pseudouridine Synthase RluA. Journal of Biological Chemistry, Vol. 274, Issue. 27, p. 18880.

Riley, M. and Serres, M. H. 2000. Interim Report on Genomics of Escherichia Coli. Annual Review of Microbiology, Vol. 54, Issue. 1, p. 341.

Ansmant, I. Massenet, S. Grosjean, H. Motorin, Y. and Branlant, C. 2000. Identification of the Saccharomyces cerevisiae RNA:pseudouridine synthase responsible for formation of 2819 in 21S mitochondrial ribosomal RNA. Nucleic Acids Research, Vol. 28, Issue. 9, p. 1941.

Ansmant, Isabelle Motorin, Yuri Massenet, Severine Grosjean, Henri and Branlant, Christiane 2001. Identification and Characterization of the tRNA:Ψ31-Synthase (Pus6p) of Saccharomyces cerevisiae . Journal of Biological Chemistry, Vol. 276, Issue. 37, p. 34934.

OFENGAND, J. MALHOTRA, A. REMME, J. GUTGSELL, N.S. DEL CAMPO, M. JEAN-CHARLES, S. PEIL, L. and KAYA, Y. 2001. Pseudouridines and Pseudouridine Synthases of the Ribosome. Cold Spring Harbor Symposia on Quantitative Biology, Vol. 66, Issue. 0, p. 147.

Lee, Kangseok Holland-Staley, Carol A. and Cunningham, Philip R. 2001. Genetic Approaches to Studying Protein Synthesis: Effects of Mutations at Ψ516 and A535 in Escherichia coli 16S rRNA. The Journal of Nutrition, Vol. 131, Issue. 11, p. 2994S.

Ofengand, James 2002. Ribosomal RNA pseudouridines and pseudouridine synthases. FEBS Letters, Vol. 514, Issue. 1, p. 17.

Ferré-D’Amaré, Adrian R 2003. RNA-modifying enzymes. Current Opinion in Structural Biology, Vol. 13, Issue. 1, p. 49.

Matte, Allan Sivaraman, J. Ekiel, Irena Gehring, Kalle Jia, Zongchao and Cygler, Miroslaw 2003. Contribution of Structural Genomics to Understanding the Biology of Escherichia coli . Journal of Bacteriology, Vol. 185, Issue. 14, p. 3994.

Chiacchio, Ugo Corsaro, Antonino Mates, Juan Merino, Pedro Piperno, Anna Rescifina, Antonio Romeo, Giovanni Romeo, Roberto and Tejero, Tomas 2003. Isoxazolidine analogues of pseudouridine: a new class of modified nucleosides. Tetrahedron, Vol. 59, Issue. 26, p. 4733.

BEHM-ANSMANT, ISABELLE URBAN, ALAN MA, XIAOJU YU, YI-TAO MOTORIN, YURI and BRANLANT, CHRISTIANE 2003. TheSaccharomyces cerevisiaeU2 snRNA:pseudouridine-synthase Pus7p is a novel multisite–multisubstrate RNA:Ψ-synthase also acting on tRNAs. RNA, Vol. 9, Issue. 11, p. 1371.

Spedaliere, Christopher J. Ginter, Joy M. Johnston, Murray V. and Mueller, Eugene G. 2004. The Pseudouridine Synthases: Revisiting a Mechanism That Seemed Settled. Journal of the American Chemical Society, Vol. 126, Issue. 40, p. 12758.

Ofengand, James Del Campo, Mark and Lovett, Susan T. 2004. Modified Nucleosides of Escherichia coli Ribosomal RNA . EcoSal Plus, Vol. 1, Issue. 1,

Behm-Ansmant, Isabelle Grosjean, Henri Massenet, Séverine Motorin, Yuri and Branlant, Christiane 2004. Pseudouridylation at Position 32 of Mitochondrial and Cytoplasmic tRNAs Requires Two Distinct Enzymes in Saccharomyces cerevisiae. Journal of Biological Chemistry, Vol. 279, Issue. 51, p. 52998.

Hamilton, Christopher S. Spedaliere, Christopher J. Ginter, Joy M. Johnston, Murray V. and Mueller, Eugene G. 2005. The roles of the essential Asp-48 and highly conserved His-43 elucidated by the pH dependence of the pseudouridine synthase TruB. Archives of Biochemistry and Biophysics, Vol. 433, Issue. 1, p. 322.

Broco, Manuela Marques, Ana Oliveira, Solange and Rodrigues-Pousada, Claudina 2005. Characterisation of the 11 Kb DNA region adjacent to the gene encodingDesulfovibrio gigasflavoredoxin. DNA Sequence, Vol. 16, Issue. 3, p. 207.

GUTGSELL, NANCY S. DEUTSCHER, MURRAY P. and OFENGAND, JAMES 2005. The pseudouridine synthase RluD is required for normal ribosome assembly and function in Escherichia coli. RNA, Vol. 11, Issue. 7, p. 1141.

Sunita, S. Zhenxing, H. Swaathi, J. Cygler, Miroslaw Matte, Allan and Sivaraman, J. 2006. Domain Organization and Crystal Structure of the Catalytic Domain of E.coli RluF, a Pseudouridine Synthase that Acts on 23S rRNA. Journal of Molecular Biology, Vol. 359, Issue. 4, p. 998.

Hoang, Charmaine Chen, Junjun Vizthum, Caroline A. Kandel, Jason M. Hamilton, Christopher S. Mueller, Eugene G. and Ferré-D'Amaré, Adrian R. 2006. Crystal Structure of Pseudouridine Synthase RluA: Indirect Sequence Readout through Protein-Induced RNA Structure. Molecular Cell, Vol. 24, Issue. 4, p. 535.

Download full list

Article contents

16S ribosomal RNA pseudouridine synthase RsuA of Escherichia coli: Deletion, mutation of the conserved Asp102 residue, and sequence comparison among all other pseudouridine synthases

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

16S ribosomal RNA pseudouridine synthase RsuA of Escherichia coli: Deletion, mutation of the conserved Asp102 residue, and sequence comparison among all other pseudouridine synthases

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests