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Literature DB >> 24034694

Bacterial argonaute samples the transcriptome to identify foreign DNA.

Ivan Olovnikov¹, Ken Chan, Ravi Sachidanandam, Dianne K Newman, Alexei A Aravin.

Abstract

Eukaryotic Argonautes bind small RNAs and use them as guides to find complementary RNA targets and induce gene silencing. Though homologs of eukaryotic Argonautes are present in many bacteria and archaea, their small RNA partners and functions are unknown. We found that the Argonaute of Rhodobacter sphaeroides (RsAgo) associates with 15-19 nt RNAs that correspond to the majority of transcripts. RsAgo also binds single-stranded 22-24 nt DNA molecules that are complementary to the small RNAs and enriched in sequences derived from exogenous plasmids as well as genome-encoded foreign nucleic acids such as transposons and phage genes. Expression of RsAgo in the heterologous E. coli system leads to formation of plasmid-derived small RNA and DNA and plasmid degradation. In a R. sphaeroides mutant lacking RsAgo, expression of plasmid-encoded genes is elevated. Our results indicate that RNAi-related processes found in eukaryotes are also conserved in bacteria and target foreign nucleic acids.

Entities: CellLine Chemical Disease Gene Mutation Species

Mesh：

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Year: 2013 PMID： 24034694 PMCID： PMC3809076 DOI： 10.1016/j.molcel.2013.08.014

Source DB: PubMed Journal: Mol Cell ISSN： 1097-2765 Impact factor: 17.970

42 in total

1. Analysis of large-scale sequencing of small RNAs.

Authors: A J Olson; J Brennecke; A A Aravin; G J Hannon; R Sachidanandam
Journal: Pac Symp Biocomput Date: 2008

2. A dicer-independent miRNA biogenesis pathway that requires Ago catalysis.

Authors: Sihem Cheloufi; Camila O Dos Santos; Mark M W Chong; Gregory J Hannon
Journal: Nature Date: 2010-06-03 Impact factor: 49.962

3. The impact of microRNAs on protein output.

Authors: Daehyun Baek; Judit Villén; Chanseok Shin; Fernando D Camargo; Steven P Gygi; David P Bartel
Journal: Nature Date: 2008-07-30 Impact factor: 49.962

4. Structure of an argonaute silencing complex with a seed-containing guide DNA and target RNA duplex.

Authors: Yanli Wang; Stefan Juranek; Haitao Li; Gang Sheng; Thomas Tuschl; Dinshaw J Patel
Journal: Nature Date: 2008-12-18 Impact factor: 49.962

5. Ultrafast and memory-efficient alignment of short DNA sequences to the human genome.

Authors: Ben Langmead; Cole Trapnell; Mihai Pop; Steven L Salzberg
Journal: Genome Biol Date: 2009-03-04 Impact factor: 13.583

6. Broad-host-range expression vectors with tightly regulated promoters and their use to examine the influence of TraR and TraM expression on Ti plasmid quorum sensing.

Authors: Sharik R Khan; Jennifer Gaines; R Martin Roop; Stephen K Farrand
Journal: Appl Environ Microbiol Date: 2008-07-07 Impact factor: 4.792

7. Galaxy: a web-based genome analysis tool for experimentalists.

Authors: Daniel Blankenberg; Gregory Von Kuster; Nathaniel Coraor; Guruprasad Ananda; Ross Lazarus; Mary Mangan; Anton Nekrutenko; James Taylor
Journal: Curr Protoc Mol Biol Date: 2010-01

8. Developmentally regulated piRNA clusters implicate MILI in transposon control.

Authors: Alexei A Aravin; Ravi Sachidanandam; Angelique Girard; Katalin Fejes-Toth; Gregory J Hannon
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9. Structure of the guide-strand-containing argonaute silencing complex.

Authors: Yanli Wang; Gang Sheng; Stefan Juranek; Thomas Tuschl; Dinshaw J Patel
Journal: Nature Date: 2008-08-27 Impact factor: 49.962

10. Prokaryotic homologs of Argonaute proteins are predicted to function as key components of a novel system of defense against mobile genetic elements.

Authors: Kira S Makarova; Yuri I Wolf; John van der Oost; Eugene V Koonin
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89 in total

Review 1. CRISPR-Cas immunity in prokaryotes.

Authors: Luciano A Marraffini
Journal: Nature Date: 2015-10-01 Impact factor: 49.962

2. Structure-based cleavage mechanism of Thermus thermophilus Argonaute DNA guide strand-mediated DNA target cleavage.

Authors: Gang Sheng; Hongtu Zhao; Jiuyu Wang; Yu Rao; Wenwen Tian; Daan C Swarts; John van der Oost; Dinshaw J Patel; Yanli Wang
Journal: Proc Natl Acad Sci U S A Date: 2013-12-27 Impact factor: 11.205

Review 3. New perspectives on the diversification of the RNA interference system: insights from comparative genomics and small RNA sequencing.

Authors: Alexander Maxwell Burroughs; Yoshinari Ando; L Aravind
Journal: Wiley Interdiscip Rev RNA Date: 2013-12-05 Impact factor: 9.957

Bacterial argonaute samples the transcriptome to identify foreign DNA.

1. Analysis of large-scale sequencing of small RNAs.

2. A dicer-independent miRNA biogenesis pathway that requires Ago catalysis.

3. The impact of microRNAs on protein output.

4. Structure of an argonaute silencing complex with a seed-containing guide DNA and target RNA duplex.

5. Ultrafast and memory-efficient alignment of short DNA sequences to the human genome.

6. Broad-host-range expression vectors with tightly regulated promoters and their use to examine the influence of TraR and TraM expression on Ti plasmid quorum sensing.

7. Galaxy: a web-based genome analysis tool for experimentalists.

8. Developmentally regulated piRNA clusters implicate MILI in transposon control.

9. Structure of the guide-strand-containing argonaute silencing complex.

10. Prokaryotic homologs of Argonaute proteins are predicted to function as key components of a novel system of defense against mobile genetic elements.

Review 1. CRISPR-Cas immunity in prokaryotes.

2. Structure-based cleavage mechanism of Thermus thermophilus Argonaute DNA guide strand-mediated DNA target cleavage.

Review 3. New perspectives on the diversification of the RNA interference system: insights from comparative genomics and small RNA sequencing.

4. Bacterial physiology: bacterial argonaute sets sail.

5. Human nuclear ARGONAUTE 2 interacts in vivo only with small RNAs and not with DNA.

Review 6. Facilitated diffusion of Argonaute-mediated target search.

Review 7. Prokaryotic Argonaute proteins: novel genome-editing tools?

8. Archaeal physiology: Two modes of a DNA scissor.

Review 9. Evolution of adaptive immunity from transposable elements combined with innate immune systems.

10. Prokaryotic viperins produce diverse antiviral molecules.