Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer

Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer

<p>Abstract</p> <p>Background</p> <p>Numerous methods exist for enriching bacterial or mammalian mRNA prior to transcriptome experiments. Yet there persists a need for methods to enrich for mRNA in non-mammalian animal systems. For example, insects contain many importan...

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Main Authors: Kumar Nikhil, Creasy Todd, Sun Yezhou, Flowers Melissa, Tallon Luke J, Dunning Hotopp Julie C
Format: Article
Language:English
Published: BMC 2012-05-01
Series:BMC Research Notes
Subjects:
<it>Wolbachia</it>
<it>Drosophila ananassae</it>
RNASeq
Transcriptomics
Lateral gene transfer
Horizontal gene transfer
Endosymbiont
Insect vector
Online Access:http://www.biomedcentral.com/1756-0500/5/230
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spelling doaj-3a735434980d4ff298517ded36bf570b2020-11-25T02:16:16ZengBMCBMC Research Notes1756-05002012-05-015123010.1186/1756-0500-5-230Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transferKumar NikhilCreasy ToddSun YezhouFlowers MelissaTallon Luke JDunning Hotopp Julie C<p>Abstract</p> <p>Background</p> <p>Numerous methods exist for enriching bacterial or mammalian mRNA prior to transcriptome experiments. Yet there persists a need for methods to enrich for mRNA in non-mammalian animal systems. For example, insects contain many important and interesting obligate intracellular bacteria, including endosymbionts and vector-borne pathogens. Such obligate intracellular bacteria are difficult to study by traditional methods. Therefore, genomics has greatly increased our understanding of these bacteria. Efficient subtraction methods are needed for removing both bacteria and insect rRNA in these systems to enable transcriptome-based studies.</p> <p>Findings</p> <p>A method is described that efficiently removes >95% of insect rRNA from total RNA samples, as determined by microfluidics and transcriptome sequencing. This subtraction yielded a 6.2-fold increase in mRNA abundance. Such a host rRNA-depletion strategy, in combination with bacterial rRNA depletion, is necessary to analyze transcription of obligate intracellular bacteria. Here, transcripts were identified that arise from a lateral gene transfer of an entire <it>Wolbachia</it> bacterial genome into a <it>Drosophila ananassae</it> chromosome. In this case, an rRNA depletion strategy is preferred over polyA-based enrichment since transcripts arising from bacteria-to-animal lateral gene transfer may not be poly-adenylated.</p> <p>Conclusions</p> <p>This enrichment method yields a significant increase in mRNA abundance when poly-A selection is not suitable. It can be used in combination with bacterial rRNA subtraction to enable experiments to simultaneously measure bacteria and insect mRNA in vector and endosymbiont biology experiments.</p> http://www.biomedcentral.com/1756-0500/5/230<it>Wolbachia</it><it>Drosophila ananassae</it>RNASeqTranscriptomicsLateral gene transferHorizontal gene transferEndosymbiontInsect vector
collection DOAJ
language English
format Article
sources DOAJ
author Kumar Nikhil
Creasy Todd
Sun Yezhou
Flowers Melissa
Tallon Luke J
Dunning Hotopp Julie C
spellingShingle Kumar Nikhil
Creasy Todd
Sun Yezhou
Flowers Melissa
Tallon Luke J
Dunning Hotopp Julie C
Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer
BMC Research Notes
<it>Wolbachia</it>
<it>Drosophila ananassae</it>
RNASeq
Transcriptomics
Lateral gene transfer
Horizontal gene transfer
Endosymbiont
Insect vector
author_facet Kumar Nikhil
Creasy Todd
Sun Yezhou
Flowers Melissa
Tallon Luke J
Dunning Hotopp Julie C
author_sort Kumar Nikhil
title Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer
title_short Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer
title_full Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer
title_fullStr Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer
title_full_unstemmed Efficient subtraction of insect rRNA prior to transcriptome analysis of <it>Wolbachia-Drosophila</it> lateral gene transfer
title_sort efficient subtraction of insect rrna prior to transcriptome analysis of <it>wolbachia-drosophila</it> lateral gene transfer
publisher BMC
series BMC Research Notes
issn 1756-0500
publishDate 2012-05-01
description <p>Abstract</p> <p>Background</p> <p>Numerous methods exist for enriching bacterial or mammalian mRNA prior to transcriptome experiments. Yet there persists a need for methods to enrich for mRNA in non-mammalian animal systems. For example, insects contain many important and interesting obligate intracellular bacteria, including endosymbionts and vector-borne pathogens. Such obligate intracellular bacteria are difficult to study by traditional methods. Therefore, genomics has greatly increased our understanding of these bacteria. Efficient subtraction methods are needed for removing both bacteria and insect rRNA in these systems to enable transcriptome-based studies.</p> <p>Findings</p> <p>A method is described that efficiently removes >95% of insect rRNA from total RNA samples, as determined by microfluidics and transcriptome sequencing. This subtraction yielded a 6.2-fold increase in mRNA abundance. Such a host rRNA-depletion strategy, in combination with bacterial rRNA depletion, is necessary to analyze transcription of obligate intracellular bacteria. Here, transcripts were identified that arise from a lateral gene transfer of an entire <it>Wolbachia</it> bacterial genome into a <it>Drosophila ananassae</it> chromosome. In this case, an rRNA depletion strategy is preferred over polyA-based enrichment since transcripts arising from bacteria-to-animal lateral gene transfer may not be poly-adenylated.</p> <p>Conclusions</p> <p>This enrichment method yields a significant increase in mRNA abundance when poly-A selection is not suitable. It can be used in combination with bacterial rRNA subtraction to enable experiments to simultaneously measure bacteria and insect mRNA in vector and endosymbiont biology experiments.</p>
topic <it>Wolbachia</it>
<it>Drosophila ananassae</it>
RNASeq
Transcriptomics
Lateral gene transfer
Horizontal gene transfer
Endosymbiont
Insect vector
url http://www.biomedcentral.com/1756-0500/5/230
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AT creasytodd efficientsubtractionofinsectrrnapriortotranscriptomeanalysisofitwolbachiadrosophilaitlateralgenetransfer
AT sunyezhou efficientsubtractionofinsectrrnapriortotranscriptomeanalysisofitwolbachiadrosophilaitlateralgenetransfer
AT flowersmelissa efficientsubtractionofinsectrrnapriortotranscriptomeanalysisofitwolbachiadrosophilaitlateralgenetransfer
AT tallonlukej efficientsubtractionofinsectrrnapriortotranscriptomeanalysisofitwolbachiadrosophilaitlateralgenetransfer
AT dunninghotoppjuliec efficientsubtractionofinsectrrnapriortotranscriptomeanalysisofitwolbachiadrosophilaitlateralgenetransfer
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