MLSTest: Novel software for multi-locus sequence data analysis in eukaryotic organisms

•We developed a software for multi-locus sequence data analysis (MLSTest).•It was designed for typing and clustering in Eukaryotes (particularly diploids).•It includes tools to analyze population genetic structure.•It includes tools to develop and to optimize typing schemes. Multi-locus sequence typ...

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Published inInfection, genetics and evolution Vol. 20; pp. 188 - 196
Main Authors Tomasini, Nicolás, Lauthier, Juan J., Llewellyn, Martin S., Diosque, Patricio
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.12.2013
Subjects
Algorithms
Aspergillus fumigatus
Aspergillus fumigatus - genetics
Candida glabrata
Candida glabrata - genetics
cluster analysis
computer software
Concatenation
data collection
Diploidy
DNA
essential genes
Eukaryota
Eukaryota - genetics
eukaryotic cells
genetics
Genomics
Genomics - methods
genotyping
Haemophilus influenzae
Haemophilus influenzae - genetics
heterozygosity
Incongruence
loci
methods
microorganisms
MLST
MLSTest
Multi-locus sequence typing
Multilocus Sequence Typing
Multilocus Sequence Typing - methods
Neisseria meningitidis
Neisseria meningitidis - genetics
nucleotide sequences
pathogens
Software
Trypanosoma cruzi
Trypanosoma cruzi - genetics
Software
Incongruence
Concatenation
MLST
Multi-locus sequence typing
MLSTest
Online AccessGet full text

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Abstract •We developed a software for multi-locus sequence data analysis (MLSTest).•It was designed for typing and clustering in Eukaryotes (particularly diploids).•It includes tools to analyze population genetic structure.•It includes tools to develop and to optimize typing schemes. Multi-locus sequence typing (MLST) is a frequently used genotyping method whose goal is the unambiguous assignment of microorganisms to genetic clusters. MLST typically involves analysis of DNA sequence results generated from several house-keeping gene loci. MLST remains the gold standard for molecular typing of many bacterial pathogens. Eukaryotic pathogens have also been the subject of MLST, however, few tools are available to deal with diploid sequence data. Here we present novel software for MLST data analysis tailored towards diploid Eukaryotes: MLSTest. This software meets various methods used in MLST and introduces some novel methodologies for the evaluation of the data set. In addition to construction of allelic profiles and basic clustering analysis, the MLSTest looks for network structures that suggest genetic exchange in BURST graphs. Additionally, it uses several simple methods for tree construction with the advantage of managing heterozygous or three-state sites. Additionally, the software analyses whether concatenation of fragments from different genes is suitable for the data set using different tests (bionj-incongruence length difference test, Templeton test). It evaluates how the incongruence is distributed across the tree using a variation of the localized incongruence length difference test based on a modified neighbour joining algorithm. We tested the last method in simulated datasets. We showed that is conservative (adequate type I error rate) and moderately to highly powerful as well as useful to localize incongruences in two bacterial and two eukaryotic MLST datasets. MLSTest was also designed for developing MLST schemes. It thus has tools to optimize locus combinations and to reduce the number of targets required for typing. MLSTest also analyses whether the discriminatory power of the typing scheme is increased by including more loci. We evaluated the software over simulated and real datasets from bacterial and eukaryotic microorganisms. The software is freely available at http://www.ipe.unsa.edu.ar/software.
AbstractList Multi-locus sequence typing (MLST) is a frequently used genotyping method whose goal is the unambiguous assignment of microorganisms to genetic clusters. MLST typically involves analysis of DNA sequence results generated from several house-keeping gene loci. MLST remains the gold standard for molecular typing of many bacterial pathogens. Eukaryotic pathogens have also been the subject of MLST, however, few tools are available to deal with diploid sequence data. Here we present novel software for MLST data analysis tailored towards diploid Eukaryotes: MLSTest. This software meets various methods used in MLST and introduces some novel methodologies for the evaluation of the data set. In addition to construction of allelic profiles and basic clustering analysis, the MLSTest looks for network structures that suggest genetic exchange in BURST graphs. Additionally, it uses several simple methods for tree construction with the advantage of managing heterozygous or three-state sites. Additionally, the software analyses whether concatenation of fragments from different genes is suitable for the data set using different tests (bionj-incongruence length difference test, Templeton test). It evaluates how the incongruence is distributed across the tree using a variation of the localized incongruence length difference test based on a modified neighbour joining algorithm. We tested the last method in simulated datasets. We showed that is conservative (adequate type I error rate) and moderately to highly powerful as well as useful to localize incongruences in two bacterial and two eukaryotic MLST datasets. MLSTest was also designed for developing MLST schemes. It thus has tools to optimize locus combinations and to reduce the number of targets required for typing. MLSTest also analyses whether the discriminatory power of the typing scheme is increased by including more loci. We evaluated the software over simulated and real datasets from bacterial and eukaryotic microorganisms. The software is freely available at http://www.ipe.unsa.edu.ar/software.
Multi-locus sequence typing (MLST) is a frequently used genotyping method whose goal is the unambiguous assignment of microorganisms to genetic clusters. MLST typically involves analysis of DNA sequence results generated from several house-keeping gene loci. MLST remains the gold standard for molecular typing of many bacterial pathogens. Eukaryotic pathogens have also been the subject of MLST, however, few tools are available to deal with diploid sequence data. Here we present novel software for MLST data analysis tailored towards diploid Eukaryotes: MLSTest. This software meets various methods used in MLST and introduces some novel methodologies for the evaluation of the data set. In addition to construction of allelic profiles and basic clustering analysis, the MLSTest looks for network structures that suggest genetic exchange in BURST graphs. Additionally, it uses several simple methods for tree construction with the advantage of managing heterozygous or three-state sites. Additionally, the software analyses whether concatenation of fragments from different genes is suitable for the data set using different tests (bionj-incongruence length difference test, Templeton test). It evaluates how the incongruence is distributed across the tree using a variation of the localized incongruence length difference test based on a modified neighbour joining algorithm. We tested the last method in simulated datasets. We showed that is conservative (adequate type I error rate) and moderately to highly powerful as well as useful to localize incongruences in two bacterial and two eukaryotic MLST datasets. MLSTest was also designed for developing MLST schemes. It thus has tools to optimize locus combinations and to reduce the number of targets required for typing. MLSTest also analyses whether the discriminatory power of the typing scheme is increased by including more loci. We evaluated the software over simulated and real datasets from bacterial and eukaryotic microorganisms. The software is freely available at http://www.ipe.unsa.edu.ar/software.Multi-locus sequence typing (MLST) is a frequently used genotyping method whose goal is the unambiguous assignment of microorganisms to genetic clusters. MLST typically involves analysis of DNA sequence results generated from several house-keeping gene loci. MLST remains the gold standard for molecular typing of many bacterial pathogens. Eukaryotic pathogens have also been the subject of MLST, however, few tools are available to deal with diploid sequence data. Here we present novel software for MLST data analysis tailored towards diploid Eukaryotes: MLSTest. This software meets various methods used in MLST and introduces some novel methodologies for the evaluation of the data set. In addition to construction of allelic profiles and basic clustering analysis, the MLSTest looks for network structures that suggest genetic exchange in BURST graphs. Additionally, it uses several simple methods for tree construction with the advantage of managing heterozygous or three-state sites. Additionally, the software analyses whether concatenation of fragments from different genes is suitable for the data set using different tests (bionj-incongruence length difference test, Templeton test). It evaluates how the incongruence is distributed across the tree using a variation of the localized incongruence length difference test based on a modified neighbour joining algorithm. We tested the last method in simulated datasets. We showed that is conservative (adequate type I error rate) and moderately to highly powerful as well as useful to localize incongruences in two bacterial and two eukaryotic MLST datasets. MLSTest was also designed for developing MLST schemes. It thus has tools to optimize locus combinations and to reduce the number of targets required for typing. MLSTest also analyses whether the discriminatory power of the typing scheme is increased by including more loci. We evaluated the software over simulated and real datasets from bacterial and eukaryotic microorganisms. The software is freely available at http://www.ipe.unsa.edu.ar/software.
•We developed a software for multi-locus sequence data analysis (MLSTest).•It was designed for typing and clustering in Eukaryotes (particularly diploids).•It includes tools to analyze population genetic structure.•It includes tools to develop and to optimize typing schemes. Multi-locus sequence typing (MLST) is a frequently used genotyping method whose goal is the unambiguous assignment of microorganisms to genetic clusters. MLST typically involves analysis of DNA sequence results generated from several house-keeping gene loci. MLST remains the gold standard for molecular typing of many bacterial pathogens. Eukaryotic pathogens have also been the subject of MLST, however, few tools are available to deal with diploid sequence data. Here we present novel software for MLST data analysis tailored towards diploid Eukaryotes: MLSTest. This software meets various methods used in MLST and introduces some novel methodologies for the evaluation of the data set. In addition to construction of allelic profiles and basic clustering analysis, the MLSTest looks for network structures that suggest genetic exchange in BURST graphs. Additionally, it uses several simple methods for tree construction with the advantage of managing heterozygous or three-state sites. Additionally, the software analyses whether concatenation of fragments from different genes is suitable for the data set using different tests (bionj-incongruence length difference test, Templeton test). It evaluates how the incongruence is distributed across the tree using a variation of the localized incongruence length difference test based on a modified neighbour joining algorithm. We tested the last method in simulated datasets. We showed that is conservative (adequate type I error rate) and moderately to highly powerful as well as useful to localize incongruences in two bacterial and two eukaryotic MLST datasets. MLSTest was also designed for developing MLST schemes. It thus has tools to optimize locus combinations and to reduce the number of targets required for typing. MLSTest also analyses whether the discriminatory power of the typing scheme is increased by including more loci. We evaluated the software over simulated and real datasets from bacterial and eukaryotic microorganisms. The software is freely available at http://www.ipe.unsa.edu.ar/software.
Author Lauthier, Juan J.
Diosque, Patricio
Tomasini, Nicolás
Llewellyn, Martin S.
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/24025589$$D View this record in MEDLINE/PubMed
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Snippet •We developed a software for multi-locus sequence data analysis (MLSTest).•It was designed for typing and clustering in Eukaryotes (particularly diploids).•It...
Multi-locus sequence typing (MLST) is a frequently used genotyping method whose goal is the unambiguous assignment of microorganisms to genetic clusters. MLST...
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SubjectTerms Algorithms
Aspergillus fumigatus
Aspergillus fumigatus - genetics
Candida glabrata
Candida glabrata - genetics
cluster analysis
computer software
Concatenation
data collection
Diploidy
DNA
essential genes
Eukaryota
Eukaryota - genetics
eukaryotic cells
genetics
Genomics
Genomics - methods
genotyping
Haemophilus influenzae
Haemophilus influenzae - genetics
heterozygosity
Incongruence
loci
methods
microorganisms
MLST
MLSTest
Multi-locus sequence typing
Multilocus Sequence Typing
Multilocus Sequence Typing - methods
Neisseria meningitidis
Neisseria meningitidis - genetics
nucleotide sequences
pathogens
Software
Trypanosoma cruzi
Trypanosoma cruzi - genetics
Title MLSTest: Novel software for multi-locus sequence data analysis in eukaryotic organisms
URI https://dx.doi.org/10.1016/j.meegid.2013.08.029
https://www.ncbi.nlm.nih.gov/pubmed/24025589
https://www.proquest.com/docview/1464497308
https://www.proquest.com/docview/1672070040
Volume 20
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