Literature DB >> 11953756

Structure of the 16S rRNA pseudouridine synthase RsuA bound to uracil and UMP.

J Sivaraman1, Véronique Sauvé, Robert Larocque, Enrico A Stura, Joseph D Schrag, Miroslaw Cygler, Allan Matte.   

Abstract

In Escherichia coli, the pseudouridine synthase RsuA catalyzes formation of pseudouridine (psi) at position 516 in 16S rRNA during assembly of the 30S ribosomal subunit. We have determined the crystal structure of RsuA bound to uracil at 2.0 A resolution and to uridine 5'-monophosphate (UMP) at 2.65 A resolution. RsuA consists of an N-terminal domain connected by an extended linker to the central and C-terminal domains. Uracil and UMP bind in a cleft between the central and C-terminal domains near the catalytic residue Asp 102. The N-terminal domain shows structural similarity to the ribosomal protein S4. Despite only 15% amino acid identity, the other two domains are structurally similar to those of the tRNA-specific psi-synthase TruA, including the position of the catalytic Asp. Our results suggest that all four families of pseudouridine synthases share the same fold of their catalytic domain(s) and uracil-binding site.

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Year:  2002        PMID: 11953756     DOI: 10.1038/nsb788

Source DB:  PubMed          Journal:  Nat Struct Biol        ISSN: 1072-8368


  27 in total

1.  The solution structure of YbcJ from Escherichia coli reveals a recently discovered alphaL motif involved in RNA binding.

Authors:  Laurent Volpon; Carine Lievre; Michael J Osborne; Shaifali Gandhi; Pietro Iannuzzi; Robert Larocque; Miroslaw Cygler; Kalle Gehring; Irena Ekiel
Journal:  J Bacteriol       Date:  2003-07       Impact factor: 3.490

Review 2.  Contribution of structural genomics to understanding the biology of Escherichia coli.

Authors:  Allan Matte; J Sivaraman; Irena Ekiel; Kalle Gehring; Zongchao Jia; Miroslaw Cygler
Journal:  J Bacteriol       Date:  2003-07       Impact factor: 3.490

3.  Crystal structure of the highly divergent pseudouridine synthase TruD reveals a circular permutation of a conserved fold.

Authors:  Charmaine Hoang; Adrian R Ferre-D'Amare
Journal:  RNA       Date:  2004-07       Impact factor: 4.942

4.  Conformational change of pseudouridine 55 synthase upon its association with RNA substrate.

Authors:  Kulwadee Phannachet; Raven H Huang
Journal:  Nucleic Acids Res       Date:  2004-02-27       Impact factor: 16.971

5.  Glycosidic bond conformation preference plays a pivotal role in catalysis of RNA pseudouridylation: a combined simulation and structural study.

Authors:  Jing Zhou; Chao Lv; Bo Liang; Mengen Chen; Wei Yang; Hong Li
Journal:  J Mol Biol       Date:  2010-07-06       Impact factor: 5.469

6.  Precursor complex structure of pseudouridine synthase TruB suggests coupling of active site perturbations to an RNA-sequestering peripheral protein domain.

Authors:  Charmaine Hoang; Christopher S Hamilton; Eugene G Mueller; Adrian R Ferré-D'Amaré
Journal:  Protein Sci       Date:  2005-06-29       Impact factor: 6.725

7.  How U38, 39, and 40 of many tRNAs become the targets for pseudouridylation by TruA.

Authors:  Sun Hur; Robert M Stroud
Journal:  Mol Cell       Date:  2007-04-27       Impact factor: 17.970

8.  RluD, a highly conserved pseudouridine synthase, modifies 50S subunits more specifically and efficiently than free 23S rRNA.

Authors:  Pavanapuresan P Vaidyanathan; Murray P Deutscher; Arun Malhotra
Journal:  RNA       Date:  2007-09-13       Impact factor: 4.942

9.  Crystal structure of an RluF-RNA complex: a base-pair rearrangement is the key to selectivity of RluF for U2604 of the ribosome.

Authors:  Akram Alian; Andrew DeGiovanni; Sarah L Griner; Janet S Finer-Moore; Robert M Stroud
Journal:  J Mol Biol       Date:  2009-03-17       Impact factor: 5.469

10.  Crystal structure of the catalytic domain of RluD, the only rRNA pseudouridine synthase required for normal growth of Escherichia coli.

Authors:  Mark Del Campo; James Ofengand; Arun Malhotra
Journal:  RNA       Date:  2004-02       Impact factor: 4.942
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