Multivariate analysis of functional metagenomes

Elizabeth A. Dinsdale; Robert A. Edwards; Barbara A. Bailey; Imre Tuba; Sajia Akhter; Katelyn McNair; Robert Schmieder; Naneh Apkarian; Michelle Creek; Eric Guan; Mayra Hernandez; Katherine Isaacs; Chris Peterson; Todd Regh; Vadim Ponomarenko

doi:10.3389/fgene.2013.00041

Multivariate analysis of functional metagenomes

Elizabeth A. Dinsdale, Robert A. Edwards, Barbara A. Bailey, Imre Tuba, Sajia Akhter, Katelyn McNair, Robert Schmieder, Naneh Apkarian, Michelle Creek, Eric Guan, Mayra Hernandez, Katherine Isaacs, Chris Peterson, Todd Regh, Vadim Ponomarenko

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

Metagenomics is a primary tool for the description of microbial and viral communities. The sheer magnitude of the data generated in each metagenome makes identifying key differences in the function and taxonomy between communities difficult to elucidate. Here we discuss the application of seven different data mining and statistical analyses by comparing and contrasting the metabolic functions of 212 microbial metagenomes within and between 10 environments. Not all approaches are appropriate for all questions, and researchers should decide which approach addresses their questions.This work demonstrated the use of each approach: for example, random forests provided a robust and enlightening description of both the clustering of metagenomes and the metabolic processes that were important in separating microbial communities from different environments. All analyses identified that the presence of phage genes within the microbial community was a predictor of whether the microbial community was host-associated or free-living. Several analyses identified the subtle differences that occur with environments, such as those seen in different regions of the marine environment.

Original language	English (US)
Article number	Article 41
Journal	Frontiers in Genetics
Volume	4
Issue number	APR
DOIs	https://doi.org/10.3389/fgene.2013.00041
State	Published - 2013
Externally published	Yes

Keywords

Canonical discriminant analysis
Metagenomics
Microbiology
Principal component analysis
Random forest
Statistics

ASJC Scopus subject areas

Molecular Medicine
Genetics
Genetics(clinical)

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10.3389/fgene.2013.00041

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title = "Multivariate analysis of functional metagenomes",

abstract = "Metagenomics is a primary tool for the description of microbial and viral communities. The sheer magnitude of the data generated in each metagenome makes identifying key differences in the function and taxonomy between communities difficult to elucidate. Here we discuss the application of seven different data mining and statistical analyses by comparing and contrasting the metabolic functions of 212 microbial metagenomes within and between 10 environments. Not all approaches are appropriate for all questions, and researchers should decide which approach addresses their questions.This work demonstrated the use of each approach: for example, random forests provided a robust and enlightening description of both the clustering of metagenomes and the metabolic processes that were important in separating microbial communities from different environments. All analyses identified that the presence of phage genes within the microbial community was a predictor of whether the microbial community was host-associated or free-living. Several analyses identified the subtle differences that occur with environments, such as those seen in different regions of the marine environment.",

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AU - Edwards, Robert A.

AU - Bailey, Barbara A.

AU - Tuba, Imre

AU - Akhter, Sajia

AU - McNair, Katelyn

AU - Schmieder, Robert

AU - Apkarian, Naneh

AU - Creek, Michelle

AU - Guan, Eric

AU - Hernandez, Mayra

AU - Isaacs, Katherine

AU - Peterson, Chris

AU - Regh, Todd

AU - Ponomarenko, Vadim

PY - 2013

Y1 - 2013

N2 - Metagenomics is a primary tool for the description of microbial and viral communities. The sheer magnitude of the data generated in each metagenome makes identifying key differences in the function and taxonomy between communities difficult to elucidate. Here we discuss the application of seven different data mining and statistical analyses by comparing and contrasting the metabolic functions of 212 microbial metagenomes within and between 10 environments. Not all approaches are appropriate for all questions, and researchers should decide which approach addresses their questions.This work demonstrated the use of each approach: for example, random forests provided a robust and enlightening description of both the clustering of metagenomes and the metabolic processes that were important in separating microbial communities from different environments. All analyses identified that the presence of phage genes within the microbial community was a predictor of whether the microbial community was host-associated or free-living. Several analyses identified the subtle differences that occur with environments, such as those seen in different regions of the marine environment.

AB - Metagenomics is a primary tool for the description of microbial and viral communities. The sheer magnitude of the data generated in each metagenome makes identifying key differences in the function and taxonomy between communities difficult to elucidate. Here we discuss the application of seven different data mining and statistical analyses by comparing and contrasting the metabolic functions of 212 microbial metagenomes within and between 10 environments. Not all approaches are appropriate for all questions, and researchers should decide which approach addresses their questions.This work demonstrated the use of each approach: for example, random forests provided a robust and enlightening description of both the clustering of metagenomes and the metabolic processes that were important in separating microbial communities from different environments. All analyses identified that the presence of phage genes within the microbial community was a predictor of whether the microbial community was host-associated or free-living. Several analyses identified the subtle differences that occur with environments, such as those seen in different regions of the marine environment.

KW - Canonical discriminant analysis

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KW - Microbiology

KW - Principal component analysis

KW - Random forest

KW - Statistics

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Multivariate analysis of functional metagenomes

Abstract

Keywords

ASJC Scopus subject areas

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