Comparison of Current Methods for Signal Peptide Prediction in Phytoplasmas

Although phytoplasma studies are still hampered by the lack of axenic cultivation methods, the availability of genome sequences allowed dramatic advances in the characterization of the virulence mechanisms deployed by phytoplasmas, and highlighted the detection of signal peptides as a crucial step t...

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Main Authors: Christophe Garcion, Laure Béven, Xavier Foissac
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-03-01
Series:Frontiers in Microbiology
Subjects:
Online Access:https://www.frontiersin.org/articles/10.3389/fmicb.2021.661524/full
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spelling doaj-e1cbbc0d2bc8487f959d18a068b60d7b2021-03-25T04:43:14ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2021-03-011210.3389/fmicb.2021.661524661524Comparison of Current Methods for Signal Peptide Prediction in PhytoplasmasChristophe GarcionLaure BévenXavier FoissacAlthough phytoplasma studies are still hampered by the lack of axenic cultivation methods, the availability of genome sequences allowed dramatic advances in the characterization of the virulence mechanisms deployed by phytoplasmas, and highlighted the detection of signal peptides as a crucial step to identify effectors secreted by phytoplasmas. However, various signal peptide prediction methods have been used to mine phytoplasma genomes, and no general evaluation of these methods is available so far for phytoplasma sequences. In this work, we compared the prediction performance of SignalP versions 3.0, 4.0, 4.1, 5.0 and Phobius on several sequence datasets originating from all deposited phytoplasma sequences. SignalP 4.1 with specific parameters showed the most exhaustive and consistent prediction ability. However, the configuration of SignalP 4.1 for increased sensitivity induced a much higher rate of false positives on transmembrane domains located at N-terminus. Moreover, sensitive signal peptide predictions could similarly be achieved by the transmembrane domain prediction ability of TMHMM and Phobius, due to the relatedness between signal peptides and transmembrane regions. Beyond the results presented herein, the datasets assembled in this study form a valuable benchmark to compare and evaluate signal peptide predictors in a field where experimental evidence of secretion is scarce. Additionally, this study illustrates the utility of comparative genomics to strengthen confidence in bioinformatic predictions.https://www.frontiersin.org/articles/10.3389/fmicb.2021.661524/fullbacteriaMollicutesSignalPTMHMMPhobiussecretion
collection DOAJ
language English
format Article
sources DOAJ
author Christophe Garcion
Laure Béven
Xavier Foissac
spellingShingle Christophe Garcion
Laure Béven
Xavier Foissac
Comparison of Current Methods for Signal Peptide Prediction in Phytoplasmas
Frontiers in Microbiology
bacteria
Mollicutes
SignalP
TMHMM
Phobius
secretion
author_facet Christophe Garcion
Laure Béven
Xavier Foissac
author_sort Christophe Garcion
title Comparison of Current Methods for Signal Peptide Prediction in Phytoplasmas
title_short Comparison of Current Methods for Signal Peptide Prediction in Phytoplasmas
title_full Comparison of Current Methods for Signal Peptide Prediction in Phytoplasmas
title_fullStr Comparison of Current Methods for Signal Peptide Prediction in Phytoplasmas
title_full_unstemmed Comparison of Current Methods for Signal Peptide Prediction in Phytoplasmas
title_sort comparison of current methods for signal peptide prediction in phytoplasmas
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2021-03-01
description Although phytoplasma studies are still hampered by the lack of axenic cultivation methods, the availability of genome sequences allowed dramatic advances in the characterization of the virulence mechanisms deployed by phytoplasmas, and highlighted the detection of signal peptides as a crucial step to identify effectors secreted by phytoplasmas. However, various signal peptide prediction methods have been used to mine phytoplasma genomes, and no general evaluation of these methods is available so far for phytoplasma sequences. In this work, we compared the prediction performance of SignalP versions 3.0, 4.0, 4.1, 5.0 and Phobius on several sequence datasets originating from all deposited phytoplasma sequences. SignalP 4.1 with specific parameters showed the most exhaustive and consistent prediction ability. However, the configuration of SignalP 4.1 for increased sensitivity induced a much higher rate of false positives on transmembrane domains located at N-terminus. Moreover, sensitive signal peptide predictions could similarly be achieved by the transmembrane domain prediction ability of TMHMM and Phobius, due to the relatedness between signal peptides and transmembrane regions. Beyond the results presented herein, the datasets assembled in this study form a valuable benchmark to compare and evaluate signal peptide predictors in a field where experimental evidence of secretion is scarce. Additionally, this study illustrates the utility of comparative genomics to strengthen confidence in bioinformatic predictions.
topic bacteria
Mollicutes
SignalP
TMHMM
Phobius
secretion
url https://www.frontiersin.org/articles/10.3389/fmicb.2021.661524/full
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AT xavierfoissac comparisonofcurrentmethodsforsignalpeptidepredictioninphytoplasmas
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