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Efficient application of de novo RNA assemblers for proteomics informed by transcriptomics

Item Type:Article
Title:Efficient application of de novo RNA assemblers for proteomics informed by transcriptomics
Creators Name:Luge, T. and Fischer, C. and Sauer, S.
Abstract:RNA sequencing is a powerful method to build reference transcriptome assemblies and eventually sample-specific protein databases for mass spectrometry-based analyses. This novel proteomics informed by transcriptomics (PIT) workflow improves sample-specific proteome characterization of dynamic- and especially non-model organism proteomes, and moreover helps to identify novel gene products. With increasing popularity of such proteogenomics applications a growing number of researchers demand qualitative but resource-friendly and easy to use analysis strategies. Most PIT applications so far rely on the initially introduced Trinity de novo assembly tool. To aid potential users to start off with PIT we compared main performance criteria of Trinity and other alternative RNA assembly tools known from the transcriptomics field including Oases, SOAPdenovo-Trans, and Trans-ABySS. Using exemplary data sets and software-specific default parameters Trinity and alternative assemblers produced comparable and high-quality reference data for vertebrate transcriptomes/proteomes of varying complexity. However, Trinity required large computational resources and time. We found that alternative de novo assemblers, in particular SOAPdenovo-Trans but also Oases and Trans-ABySS rapidly produced protein databases with far lowerer computational requirements. By making choice among various RNA assembly tools, proteomics researchers new to transcriptome assembly and with future projects with high sample numbers can benefit from alternative approaches to efficiently apply PIT.
Keywords:Sequence Databases, Proteomics Informed by Transcriptomics, RNA-seq, Mass Spectrometry
Source:Journal of Proteome Research
ISSN:1535-3893
Publisher:American Chemical Society
Volume:15
Number:10
Page Range:3938-3943
Date:7 October 2016
Official Publication:https://doi.org/10.1021/acs.jproteome.6b00301
PubMed:View item in PubMed

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