Literature DB >> 21173200

Substrate recognition by ribonucleoprotein ribonuclease MRP.

Olga Esakova1, Anna Perederina, Chao Quan, Igor Berezin, Andrey S Krasilnikov.   

Abstract

The ribonucleoprotein complex ribonuclease (RNase) MRP is a site-specific endoribonuclease essential for the survival of the eukaryotic cell. RNase MRP closely resembles RNase P (a universal endoribonuclease responsible for the maturation of the 5' ends of tRNA) but recognizes distinct substrates including pre-rRNA and mRNA. Here we report the results of an in vitro selection of Saccharomyces cerevisiae RNase MRP substrates starting from a pool of random sequences. The results indicate that RNase MRP cleaves single-stranded RNA and is sensitive to sequences in the immediate vicinity of the cleavage site requiring a cytosine at the position +4 relative to the cleavage site. Structural implications of the differences in substrate recognition by RNases P and MRP are discussed.

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Year:  2010        PMID: 21173200      PMCID: PMC3022284          DOI: 10.1261/rna.2393711

Source DB:  PubMed          Journal:  RNA        ISSN: 1355-8382            Impact factor:   4.942


  44 in total

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Authors:  Andrey S Krasilnikov; Xiaojing Yang; Tao Pan; Alfonso Mondragón
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2.  Basis for structural diversity in homologous RNAs.

Authors:  Andrey S Krasilnikov; Yinghua Xiao; Tao Pan; Alfonso Mondragón
Journal:  Science       Date:  2004-10-01       Impact factor: 47.728

3.  A mammalian mitochondrial RNA processing activity contains nucleus-encoded RNA.

Authors:  D D Chang; D A Clayton
Journal:  Science       Date:  1987-03-06       Impact factor: 47.728

4.  Mutations in the RNA component of RNase MRP cause a pleiotropic human disease, cartilage-hair hypoplasia.

Authors:  M Ridanpää; H van Eenennaam; K Pelin; R Chadwick; C Johnson; B Yuan; W vanVenrooij; G Pruijn; R Salmela; S Rockas; O Mäkitie; I Kaitila; A de la Chapelle
Journal:  Cell       Date:  2001-01-26       Impact factor: 41.582

5.  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

6.  Evidence for an RNA-based catalytic mechanism in eukaryotic nuclear ribonuclease P.

Authors:  B C Thomas; J Chamberlain; D R Engelke; P Gegenheimer
Journal:  RNA       Date:  2000-04       Impact factor: 4.942

7.  The Saccharomyces cerevisiae RNase mitochondrial RNA processing is critical for cell cycle progression at the end of mitosis.

Authors:  Ti Cai; Jason Aulds; Tina Gill; Michael Cerio; Mark E Schmitt
Journal:  Genetics       Date:  2002-07       Impact factor: 4.562

8.  RNase MRP cleaves the CLB2 mRNA to promote cell cycle progression: novel method of mRNA degradation.

Authors:  Tina Gill; Ti Cai; Jason Aulds; Sara Wierzbicki; Mark E Schmitt
Journal:  Mol Cell Biol       Date:  2004-02       Impact factor: 4.272

9.  Incorporating chemical modification constraints into a dynamic programming algorithm for prediction of RNA secondary structure.

Authors:  David H Mathews; Matthew D Disney; Jessica L Childs; Susan J Schroeder; Michael Zuker; Douglas H Turner
Journal:  Proc Natl Acad Sci U S A       Date:  2004-05-03       Impact factor: 11.205

10.  Structure of a bacterial ribonuclease P holoenzyme in complex with tRNA.

Authors:  Nicholas J Reiter; Amy Osterman; Alfredo Torres-Larios; Kerren K Swinger; Tao Pan; Alfonso Mondragón
Journal:  Nature       Date:  2010-11-14       Impact factor: 49.962
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  16 in total

1.  Interactions of a Pop5/Rpp1 heterodimer with the catalytic domain of RNase MRP.

Authors:  Anna Perederina; Elena Khanova; Chao Quan; Igor Berezin; Olga Esakova; Andrey S Krasilnikov
Journal:  RNA       Date:  2011-08-30       Impact factor: 4.942

2.  Global identification of new substrates for the yeast endoribonuclease, RNase mitochondrial RNA processing (MRP).

Authors:  Jason Aulds; Sara Wierzbicki; Adrian McNairn; Mark E Schmitt
Journal:  J Biol Chem       Date:  2012-09-12       Impact factor: 5.157

3.  RNase P enzymes: divergent scaffolds for a conserved biological reaction.

Authors:  Michael J Howard; Xin Liu; Wan Hsin Lim; Bradely P Klemm; Carol A Fierke; Markos Koutmos; David R Engelke
Journal:  RNA Biol       Date:  2013-04-01       Impact factor: 4.652

4.  Accumulation of noncoding RNA due to an RNase P defect in Saccharomyces cerevisiae.

Authors:  Michael C Marvin; Sandra Clauder-Münster; Scott C Walker; Ali Sarkeshik; John R Yates; Lars M Steinmetz; David R Engelke
Journal:  RNA       Date:  2011-06-10       Impact factor: 4.942

5.  Binding and cleavage of unstructured RNA by nuclear RNase P.

Authors:  Michael C Marvin; Scott C Walker; Carol A Fierke; David R Engelke
Journal:  RNA       Date:  2011-06-10       Impact factor: 4.942

6.  Structural organizations of yeast RNase P and RNase MRP holoenzymes as revealed by UV-crosslinking studies of RNA-protein interactions.

Authors:  Elena Khanova; Olga Esakova; Anna Perederina; Igor Berezin; Andrey S Krasilnikov
Journal:  RNA       Date:  2012-02-13       Impact factor: 4.942

7.  The perinucleolar compartment associates with malignancy.

Authors:  Yiping Wen; Chen Wang; Sui Huang
Journal:  Front Biol (Beijing)       Date:  2013-08-01

8.  Fidelity of tRNA 5'-maturation: a possible basis for the functional dependence of archaeal and eukaryal RNase P on multiple protein cofactors.

Authors:  Wen-Yi Chen; Deepali Singh; Lien B Lai; Michael A Stiffler; Hue D Lai; Mark P Foster; Venkat Gopalan
Journal:  Nucleic Acids Res       Date:  2012-01-31       Impact factor: 16.971

9.  Footprinting analysis of interactions between the largest eukaryotic RNase P/MRP protein Pop1 and RNase P/MRP RNA components.

Authors:  Robert D Fagerlund; Anna Perederina; Igor Berezin; Andrey S Krasilnikov
Journal:  RNA       Date:  2015-07-01       Impact factor: 4.942

10.  A Novel Model for the RNase MRP-Induced Switch between the Formation of Different Forms of 5.8S rRNA.

Authors:  Xiao Li; Janice M Zengel; Lasse Lindahl
Journal:  Int J Mol Sci       Date:  2021-06-22       Impact factor: 5.923
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