A second function for pseudouridine synthases: A point mutant of RluD unable to form pseudouridines 1911, 1915, and 1917 in Escherichia coli 23S ribosomal RNA restores normal growth to an RluD-minus strain

NANCY S. GUTGSELL; MARK DEL CAMPO; SAUMYA RAYCHAUDHURI; JAMES OFENGAND

doi:10.1017/S1355838201000243

Abstract

This laboratory previously showed that truncation of the gene for RluD, the Escherichia coli pseudouridine synthase responsible for synthesis of 23S rRNA pseudouridines 1911, 1915, and 1917, blocks pseudouridine formation and inhibits growth. We now show that RluD mutants at the essential aspartate 139 allow these two functions of RluD to be separated. In vitro, RluD with aspartate 139 replaced by threonine or asparagine is completely inactive. In vivo, the growth defect could be completely restored by transformation of an RluD-inactive strain with plasmids carrying genes for RluD with aspartate 139 replaced by threonine or asparagine. Pseudouridine sequencing of the 23S rRNA from these transformed strains demonstrated the lack of these pseudouridines. Pseudoreversion, which has previously been shown to restore growth without pseudouridine formation by mutation at a distant position on the chromosome, was not responsible because transformation with empty vector under identical conditions did not alter the growth rate.

Crossref Citations

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

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.

Ofengand, James Del Campo, Mark and Kaya, Yusuf 2001. Mapping Pseudouridines in RNA Molecules. Methods, Vol. 25, Issue. 3, p. 365.

Cheng, Xiaodong and Blumenthal, Robert M 2002. Cytosines Do It, Thymines Do It, Even Pseudouridines Do It—Base Flipping by an Enzyme that Acts on RNA. Structure, Vol. 10, Issue. 2, p. 127.

Decatur, Wayne A and Fournier, Maurille J 2002. rRNA modifications and ribosome function. Trends in Biochemical Sciences, Vol. 27, Issue. 7, p. 344.

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

Lecointe, François Namy, Olivier Hatin, Isabelle Simos, George Rousset, Jean-Pierre and Grosjean, Henri 2002. Lack of Pseudouridine 38/39 in the Anticodon Arm of Yeast Cytoplasmic tRNA Decreases in Vivo Recoding Efficiency. Journal of Biological Chemistry, Vol. 277, Issue. 34, p. 30445.

Agarwalla, Sanjay Kealey, James T. Santi, Daniel V. and Stroud, Robert M. 2002. Characterization of the 23 S Ribosomal RNA m5U1939 Methyltransferase from Escherichia coli . Journal of Biological Chemistry, Vol. 277, Issue. 11, p. 8835.

Liu, Mingfu and Douthwaite, Stephen 2002. Methylation at nucleotide G745 or G748 in 23S rRNA distinguishes Gram‐negative from Gram‐positive bacteria. Molecular Microbiology, Vol. 44, Issue. 1, p. 195.

Lin, Xiaorong and Momany, Michelle 2003. The Aspergillus nidulans swoC1 Mutant Shows Defects in Growth and Development. Genetics, Vol. 165, Issue. 2, p. 543.

BADIS, GWENAEL FROMONT-RACINE, MICHELINE and JACQUIER, ALAIN 2003. A snoRNA that guides the two most conserved pseudouridine modifications within rRNA confers a growth advantage in yeast. RNA, Vol. 9, Issue. 7, p. 771.

Pan, Hu Agarwalla, Sanjay Moustakas, Demetri T. Finer-Moore, Janet and Stroud, Robert M. 2003. Structure of tRNA pseudouridine synthase TruB and its RNA complex: RNA recognition through a combination of rigid docking and induced fit. Proceedings of the National Academy of Sciences, Vol. 100, Issue. 22, p. 12648.

Ishitani, Ryuichiro Nureki, Osamu Nameki, Nobukazu Okada, Norihiro Nishimura, Susumu and Yokoyama, Shigeyuki 2003. Alternative Tertiary Structure of tRNA for Recognition by a Posttranscriptional Modification Enzyme. Cell, Vol. 113, Issue. 3, p. 383.

Yu, Yi-Tao Terns, Rebecca M. and Terns, Michael P. 2004. Fine-Tuning of RNA Functions by Modification and Editing. Vol. 12, Issue. , p. 223.

DEL CAMPO, MARK OFENGAND, JAMES and MALHOTRA, ARUN 2004. Crystal structure of the catalytic domain of RluD, the only rRNA pseudouridine synthase required for normal growth of Escherichia coli. RNA, Vol. 10, Issue. 2, p. 231.

LIU, MINGFU NOVOTNY, GUY W. and DOUTHWAITE, STEPHEN 2004. Methylation of 23S rRNA nucleotide G745 is a secondary function of the RlmAI methyltransferase . RNA, Vol. 10, Issue. 11, p. 1713.

Lapeyre, Bruno 2004. Fine-Tuning of RNA Functions by Modification and Editing. Vol. 12, Issue. , p. 263.

Garbom, Sara Forsberg, Åke Wolf-Watz, Hans and Kihlberg, Britt-Marie 2004. Identification of Novel Virulence-Associated Genes via Genome Analysis of Hypothetical Genes. Infection and Immunity, Vol. 72, Issue. 3, p. 1333.

Chaudhuri, Barnali N. Chan, Sum Perry, L. Jeanne and Yeates, Todd O. 2004. Crystal Structure of the Apo Forms of ψ 55 tRNA Pseudouridine Synthase from Mycobacterium tuberculosis. Journal of Biological Chemistry, Vol. 279, Issue. 23, p. 24585.

Zhao, Xiansi Patton, Jeffrey R. Davis, Shannon L. Florence, Brian Ames, Sarah J. and Spanjaard, Remco A. 2004. Regulation of Nuclear Receptor Activity by a Pseudouridine Synthase through Posttranscriptional Modification of Steroid Receptor RNA Activator. Molecular Cell, Vol. 15, Issue. 4, p. 549.

Sivaraman, J Iannuzzi, Pietro Cygler, Miroslaw and Matte, Allan 2004. Crystal Structure of the RluD Pseudouridine Synthase Catalytic Module, an Enzyme that Modifies 23S rRNA and is Essential for Normal Cell Growth of Escherichia coli. Journal of Molecular Biology, Vol. 335, Issue. 1, p. 87.

Download full list

Article contents

A second function for pseudouridine synthases: A point mutant of RluD unable to form pseudouridines 1911, 1915, and 1917 in Escherichia coli 23S ribosomal RNA restores normal growth to an RluD-minus strain

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

A second function for pseudouridine synthases: A point mutant of RluD unable to form pseudouridines 1911, 1915, and 1917 in Escherichia coli 23S ribosomal RNA restores normal growth to an RluD-minus strain

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