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Literature DB >> 21521690

Relevance of the branch point adenosine, coordination loop, and 3' exon binding site for in vivo excision of the Sinorhizobium meliloti group II intron RmInt1.

María Dolores Molina-Sánchez¹, Antonio Barrientos-Durán, Nicolás Toro.

Abstract

Excision of the bacterial group II intron RmInt1 has been demonstrated in vivo, resulting in the formation of both intron lariat and putative intron RNA circles. We show here that the bulged adenosine in domain VI of RmInt1 is required for splicing via the branching pathway, but branch site mutants produce small numbers of RNA molecules in which the first G residue of the intron is linked to the last C residue. Mutations in the coordination loop in domain I reduced splicing efficiency, but branched templates clearly predominated among splicing products. We also found that a single substitution at the EBS3 position (G329C), preventing EBS3-IBS3 pairing, resulted in the production of 50 to 100 times more RNA molecules in which the 5' and 3' extremities were joined. We provide evidence that these intron molecules may correspond to both, intron circles linked by a 2'-5' phosphodiester bond, and tandem, head-to-tail intron copies.

Entities: Chemical Mutation Species

Mesh：

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Year: 2011 PMID： 21521690 PMCID： PMC3122177 DOI： 10.1074/jbc.M110.210013

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

32 in total

1. Reverse self-splicing of group II intron RNAs in vitro.

Authors: S Augustin; M W Müller; R J Schweyen
Journal: Nature Date: 1990-01-25 Impact factor: 49.962

2. Splice site selection and role of the lariat in a group II intron.

Authors: A Jacquier; N Jacquesson-Breuleux
Journal: J Mol Biol Date: 1991-06-05 Impact factor: 5.469

3. Excised group II introns in yeast mitochondria are lariats and can be formed by self-splicing in vitro.

Authors: R van der Veen; A C Arnberg; G van der Horst; L Bonen; H F Tabak; L A Grivell
Journal: Cell Date: 1986-01-31 Impact factor: 41.582

4. Reverse transcriptase reads through a 2'-5'linkage and a 2'-thiophosphate in a template.

Authors: J R Lorsch; D P Bartel; J W Szostak
Journal: Nucleic Acids Res Date: 1995-08-11 Impact factor: 16.971

5. Base-pairing interactions involving the 5' and 3'-terminal nucleotides of group II self-splicing introns.

Authors: A Jacquier; F Michel
Journal: J Mol Biol Date: 1990-06-05 Impact factor: 5.469

6. Group II intron domain 5 facilitates a trans-splicing reaction.

Authors: K A Jarrell; R C Dietrich; P S Perlman
Journal: Mol Cell Biol Date: 1988-06 Impact factor: 4.272

Review 7. Structure and activities of group II introns.

Authors: F Michel; J L Ferat
Journal: Annu Rev Biochem Date: 1995 Impact factor: 23.643

8. Branch-point attack in group II introns is a highly reversible transesterification, providing a potential proofreading mechanism for 5'-splice site selection.

Authors: K Chin; A M Pyle
Journal: RNA Date: 1995-06 Impact factor: 4.942

9. Two competing pathways for self-splicing by group II introns: a quantitative analysis of in vitro reaction rates and products.

Authors: D L Daniels; W J Michels; A M Pyle
Journal: J Mol Biol Date: 1996-02-16 Impact factor: 5.469

10. Dispersion of the RmInt1 group II intron in the Sinorhizobium meliloti genome upon acquisition by conjugative transfer.

Authors: Rafael Nisa-Martínez; José I Jiménez-Zurdo; Francisco Martínez-Abarca; Estefanía Muñoz-Adelantado; Nicolás Toro
Journal: Nucleic Acids Res Date: 2006-12-07 Impact factor: 16.971

9 in total

1. The Ll.LtrB intron from Lactococcus lactis excises as circles in vivo: insights into the group II intron circularization pathway.

Authors: Caroline Monat; Cecilia Quiroga; Felix Laroche-Johnston; Benoit Cousineau
Journal: RNA Date: 2015-05-08 Impact factor: 4.942

2. Localization of a bacterial group II intron-encoded protein in eukaryotic nuclear splicing-related cell compartments.

Authors: Rafael Nisa-Martínez; Philippe Laporte; José Ignacio Jiménez-Zurdo; Florian Frugier; Martin Crespi; Nicolás Toro
Journal: PLoS One Date: 2013-12-31 Impact factor: 3.240

3. In vitro characterization of the splicing efficiency and fidelity of the RmInt1 group II intron as a means of controlling the dispersion of its host mobile element.

Authors: Isabel Chillón; María Dolores Molina-Sánchez; Olga Fedorova; Fernando Manuel García-Rodríguez; Francisco Martínez-Abarca; Nicolás Toro
Journal: RNA Date: 2014-10-21 Impact factor: 4.942

4. Functionality of In vitro Reconstituted Group II Intron RmInt1-Derived Ribonucleoprotein Particles.

Authors: Maria D Molina-Sánchez; Fernando M García-Rodríguez; Nicolás Toro
Journal: Front Mol Biosci Date: 2016-09-27

5. Localization of a bacterial group II intron-encoded protein in human cells.

Authors: Mercedes Reinoso-Colacio; Fernando Manuel García-Rodríguez; Marta García-Cañadas; Suyapa Amador-Cubero; José Luis García Pérez; Nicolás Toro
Journal: Sci Rep Date: 2015-08-05 Impact factor: 4.379

Review 6. Insights into the strategies used by related group II introns to adapt successfully for the colonisation of a bacterial genome.

Authors: Laura Martínez-Rodríguez; Fernando M García-Rodríguez; María Dolores Molina-Sánchez; Nicolás Toro; Francisco Martínez-Abarca
Journal: RNA Biol Date: 2014-10-31 Impact factor: 4.652