Methylation of rRNA as a host defense against rampant group II intron retrotransposition

Methylation of rRNA as a host defense against rampant group II intron retrotransposition

Abstract Background Group II introns are mobile retroelements, capable of invading new sites in DNA. They are self-splicing ribozymes that complex with an intron-encoded protein to form a ribonucleoprotein that targets DNA after splicing. These molecules can invade DNA site-specifically, through a p...

Full description

Bibliographic Details
Main Authors: Justin M. Waldern, Dorie Smith, Carol Lyn Piazza, E. Jake Bailey, Nicholas J. Schiraldi, Reza Nemati, Dan Fabris, Marlene Belfort, Olga Novikova
Format: Article
Language:English
Published: BMC 2021-03-01
Series:Mobile DNA
Subjects:
Mobile genetic elements
Retrotransposons
Ribosomes
RNA splicing
Online Access:https://doi.org/10.1186/s13100-021-00237-z
id doaj-3060b5bd7d624edc9c8156bc8e2e2450
record_format Article
spelling doaj-3060b5bd7d624edc9c8156bc8e2e24502021-03-11T11:42:07ZengBMCMobile DNA1759-87532021-03-0112112010.1186/s13100-021-00237-zMethylation of rRNA as a host defense against rampant group II intron retrotranspositionJustin M. Waldern0Dorie Smith1Carol Lyn Piazza2E. Jake Bailey3Nicholas J. Schiraldi4Reza Nemati5Dan Fabris6Marlene Belfort7Olga Novikova8Department of Biological Sciences and RNA Institute, University at AlbanyDepartment of Biological Sciences and RNA Institute, University at AlbanyDepartment of Biological Sciences and RNA Institute, University at AlbanyDepartment of Biological Sciences and RNA Institute, University at AlbanyAcademic and Research Computing Center, Information Technology Services, University at AlbanyDepartment of Chemistry, University at AlbanyDepartment of Biological Sciences and RNA Institute, University at AlbanyDepartment of Biological Sciences and RNA Institute, University at AlbanyDepartment of Biological Sciences and RNA Institute, University at AlbanyAbstract Background Group II introns are mobile retroelements, capable of invading new sites in DNA. They are self-splicing ribozymes that complex with an intron-encoded protein to form a ribonucleoprotein that targets DNA after splicing. These molecules can invade DNA site-specifically, through a process known as retrohoming, or can invade ectopic sites through retrotransposition. Retrotransposition, in particular, can be strongly influenced by both environmental and cellular factors. Results To investigate host factors that influence retrotransposition, we performed random insertional mutagenesis using the ISS1 transposon to generate a library of over 1000 mutants in Lactococcus lactis, the native host of the Ll.LtrB group II intron. By screening this library, we identified 92 mutants with increased retrotransposition frequencies (RTP-ups). We found that mutations in amino acid transport and metabolism tended to have increased retrotransposition frequencies. We further explored a subset of these RTP-up mutants, the most striking of which is a mutant in the ribosomal RNA methyltransferase rlmH, which exhibited a reproducible 20-fold increase in retrotransposition frequency. In vitro and in vivo experiments revealed that ribosomes in the rlmH mutant were defective in the m3Ψ modification and exhibited reduced binding to the intron RNA. Conclusions Taken together, our results reinforce the importance of the native host organism in regulating group II intron retrotransposition. In particular, the evidence from the rlmH mutant suggests a role for ribosome modification in limiting rampant retrotransposition.https://doi.org/10.1186/s13100-021-00237-zMobile genetic elementsRetrotransposonsRibosomesRNA splicing
collection DOAJ
language English
format Article
sources DOAJ
author Justin M. Waldern
Dorie Smith
Carol Lyn Piazza
E. Jake Bailey
Nicholas J. Schiraldi
Reza Nemati
Dan Fabris
Marlene Belfort
Olga Novikova
spellingShingle Justin M. Waldern
Dorie Smith
Carol Lyn Piazza
E. Jake Bailey
Nicholas J. Schiraldi
Reza Nemati
Dan Fabris
Marlene Belfort
Olga Novikova
Methylation of rRNA as a host defense against rampant group II intron retrotransposition
Mobile DNA
Mobile genetic elements
Retrotransposons
Ribosomes
RNA splicing
author_facet Justin M. Waldern
Dorie Smith
Carol Lyn Piazza
E. Jake Bailey
Nicholas J. Schiraldi
Reza Nemati
Dan Fabris
Marlene Belfort
Olga Novikova
author_sort Justin M. Waldern
title Methylation of rRNA as a host defense against rampant group II intron retrotransposition
title_short Methylation of rRNA as a host defense against rampant group II intron retrotransposition
title_full Methylation of rRNA as a host defense against rampant group II intron retrotransposition
title_fullStr Methylation of rRNA as a host defense against rampant group II intron retrotransposition
title_full_unstemmed Methylation of rRNA as a host defense against rampant group II intron retrotransposition
title_sort methylation of rrna as a host defense against rampant group ii intron retrotransposition
publisher BMC
series Mobile DNA
issn 1759-8753
publishDate 2021-03-01
description Abstract Background Group II introns are mobile retroelements, capable of invading new sites in DNA. They are self-splicing ribozymes that complex with an intron-encoded protein to form a ribonucleoprotein that targets DNA after splicing. These molecules can invade DNA site-specifically, through a process known as retrohoming, or can invade ectopic sites through retrotransposition. Retrotransposition, in particular, can be strongly influenced by both environmental and cellular factors. Results To investigate host factors that influence retrotransposition, we performed random insertional mutagenesis using the ISS1 transposon to generate a library of over 1000 mutants in Lactococcus lactis, the native host of the Ll.LtrB group II intron. By screening this library, we identified 92 mutants with increased retrotransposition frequencies (RTP-ups). We found that mutations in amino acid transport and metabolism tended to have increased retrotransposition frequencies. We further explored a subset of these RTP-up mutants, the most striking of which is a mutant in the ribosomal RNA methyltransferase rlmH, which exhibited a reproducible 20-fold increase in retrotransposition frequency. In vitro and in vivo experiments revealed that ribosomes in the rlmH mutant were defective in the m3Ψ modification and exhibited reduced binding to the intron RNA. Conclusions Taken together, our results reinforce the importance of the native host organism in regulating group II intron retrotransposition. In particular, the evidence from the rlmH mutant suggests a role for ribosome modification in limiting rampant retrotransposition.
topic Mobile genetic elements
Retrotransposons
Ribosomes
RNA splicing
url https://doi.org/10.1186/s13100-021-00237-z
work_keys_str_mv AT justinmwaldern methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT doriesmith methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT carollynpiazza methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT ejakebailey methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT nicholasjschiraldi methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT rezanemati methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT danfabris methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT marlenebelfort methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
AT olganovikova methylationofrrnaasahostdefenseagainstrampantgroupiiintronretrotransposition
_version_ 1724225253963464704

Similar Items