Literature DB >> 11557817

Bacterial ribonuclease P holoenzyme crosslinking analysis reveals protein interaction sites on the RNA subunit.

S M Sharkady1, J M Nolan.   

Abstract

The structure of the Escherichia coli ribonuclease P (RNase P) holoenzyme was investigated by site-directed attachment of an aryl azide crosslink reagent to specific sites in the protein subunit of the enzyme. The sites of crosslinking to the RNase P RNA subunit were mapped by primer extension to several conserved residues and structural features throughout the RNA. The results suggest rearrangement of current tertiary models of the RNA subunit, particularly in regions poorly constrained by earlier data. Crosslinks to the substrate precursor-tRNA were also detected, consistent with previous crosslinking results in the Bacillus subtilis RNase P holoenzyme.

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Year:  2001        PMID: 11557817      PMCID: PMC55911          DOI: 10.1093/nar/29.18.3848

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


  36 in total

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Authors:  D Smith; A B Burgin; E S Haas; N R Pace
Journal:  J Biol Chem       Date:  1992-02-05       Impact factor: 5.157

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Authors:  E S Haas; D P Morse; J W Brown; F J Schmidt; N R Pace
Journal:  Science       Date:  1991-11-08       Impact factor: 47.728

Review 3.  Plasmid transformation of Escherichia coli and other bacteria.

Authors:  D Hanahan; J Jessee; F R Bloom
Journal:  Methods Enzymol       Date:  1991       Impact factor: 1.600

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Authors:  F G Hansen; E B Hansen; T Atlung
Journal:  Gene       Date:  1985       Impact factor: 3.688

5.  Protein component of the ribozyme ribonuclease P alters substrate recognition by directly contacting precursor tRNA.

Authors:  S Niranjanakumari; T Stams; S M Crary; D W Christianson; C A Fierke
Journal:  Proc Natl Acad Sci U S A       Date:  1998-12-22       Impact factor: 11.205

6.  Secondary structure of the circular form of the Tetrahymena rRNA intervening sequence: a technique for RNA structure analysis using chemical probes and reverse transcriptase.

Authors:  T Inoue; T R Cech
Journal:  Proc Natl Acad Sci U S A       Date:  1985-02       Impact factor: 11.205

7.  Tricine-sodium dodecyl sulfate-polyacrylamide gel electrophoresis for the separation of proteins in the range from 1 to 100 kDa.

Authors:  H Schägger; G von Jagow
Journal:  Anal Biochem       Date:  1987-11-01       Impact factor: 3.365

8.  Protein-RNA interactions in the RNase P holoenzyme from Escherichia coli.

Authors:  A Vioque; J Arnez; S Altman
Journal:  J Mol Biol       Date:  1988-08-20       Impact factor: 5.469

9.  The RNA moiety of ribonuclease P is the catalytic subunit of the enzyme.

Authors:  C Guerrier-Takada; K Gardiner; T Marsh; N Pace; S Altman
Journal:  Cell       Date:  1983-12       Impact factor: 41.582

10.  Mapping the active site of ribonuclease P RNA using a substrate containing a photoaffinity agent.

Authors:  A B Burgin; N R Pace
Journal:  EMBO J       Date:  1990-12       Impact factor: 11.598
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  4 in total

1.  Lead(II) cleavage analysis of RNase P RNA in vivo.

Authors:  Magnus Lindell; Mathias Brännvall; E Gerhart H Wagner; Leif A Kirsebom
Journal:  RNA       Date:  2005-07-25       Impact factor: 4.942

2.  High-resolution structure of RNase P protein from Thermotoga maritima.

Authors:  Alexei V Kazantsev; Angelika A Krivenko; Daniel J Harrington; Richard J Carter; Stephen R Holbrook; Paul D Adams; Norman R Pace
Journal:  Proc Natl Acad Sci U S A       Date:  2003-06-10       Impact factor: 11.205

3.  M1 RNA is important for the in-cell solubility of its cognate C5 protein: Implications for RNA-mediated protein folding.

Authors:  Ahyun Son; Seong Il Choi; Gyoonhee Han; Baik L Seong
Journal:  RNA Biol       Date:  2015-10-30       Impact factor: 4.652

4.  The ancient history of the structure of ribonuclease P and the early origins of Archaea.

Authors:  Feng-Jie Sun; Gustavo Caetano-Anollés
Journal:  BMC Bioinformatics       Date:  2010-03-24       Impact factor: 3.169
  4 in total

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