Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation

Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation

Abstract Background Isoprene is the most abundantly produced biogenic volatile organic compound (BVOC) on Earth, with annual global emissions almost equal to those of methane. Despite its importance in atmospheric chemistry and climate, little is known about the biological degradation of isoprene in...

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Main Authors: Ornella Carrión, Lisa Gibson, Dafydd M. O. Elias, Niall P. McNamara, Theo A. van Alen, Huub J. M. Op den Camp, Christina Vimala Supramaniam, Terry J. McGenity, J. Colin Murrell
Format: Article
Language:English
Published: BMC 2020-06-01
Series:Microbiome
Subjects:
Isoprene
Climate
Isoprene monooxygenase
DNA stable isotope probing
Oil palm
isoA
Online Access:http://link.springer.com/article/10.1186/s40168-020-00860-7
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spelling doaj-900203d5fd264de68b3c09e5c355fbf02020-11-25T03:26:19ZengBMCMicrobiome2049-26182020-06-018111310.1186/s40168-020-00860-7Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantationOrnella Carrión0Lisa Gibson1Dafydd M. O. Elias2Niall P. McNamara3Theo A. van Alen4Huub J. M. Op den Camp5Christina Vimala Supramaniam6Terry J. McGenity7J. Colin Murrell8School of Environmental Sciences, University of East AngliaSchool of Environmental Sciences, University of East AngliaUK Centre of Ecology & Hydrology, Lancaster Environment CentreUK Centre of Ecology & Hydrology, Lancaster Environment CentreDepartment of Microbiology, Faculty of Science, IWWR, Radboud University NijmegenDepartment of Microbiology, Faculty of Science, IWWR, Radboud University NijmegenSchool of Biosciences, Nottingham Centre of Sustainable Palm Oil, University of Nottingham-MalaysiaSchool of Life Sciences, University of EssexSchool of Environmental Sciences, University of East AngliaAbstract Background Isoprene is the most abundantly produced biogenic volatile organic compound (BVOC) on Earth, with annual global emissions almost equal to those of methane. Despite its importance in atmospheric chemistry and climate, little is known about the biological degradation of isoprene in the environment. The largest source of isoprene is terrestrial plants, and oil palms, the cultivation of which is expanding rapidly, are among the highest isoprene-producing trees. Results DNA stable isotope probing (DNA-SIP) to study the microbial isoprene-degrading community associated with oil palm trees revealed novel genera of isoprene-utilising bacteria including Novosphingobium, Pelomonas, Rhodoblastus, Sphingomonas and Zoogloea in both oil palm soils and on leaves. Amplicon sequencing of isoA genes, which encode the α-subunit of the isoprene monooxygenase (IsoMO), a key enzyme in isoprene metabolism, confirmed that oil palm trees harbour a novel diversity of isoA sequences. In addition, metagenome-assembled genomes (MAGs) were reconstructed from oil palm soil and leaf metagenomes and putative isoprene degradation genes were identified. Analysis of unenriched metagenomes showed that isoA-containing bacteria are more abundant in soils than in the oil palm phyllosphere. Conclusion This study greatly expands the known diversity of bacteria that can metabolise isoprene and contributes to a better understanding of the biological degradation of this important but neglected climate-active gas. Video abstract.http://link.springer.com/article/10.1186/s40168-020-00860-7IsopreneClimateIsoprene monooxygenaseDNA stable isotope probingOil palmisoA
collection DOAJ
language English
format Article
sources DOAJ
author Ornella Carrión
Lisa Gibson
Dafydd M. O. Elias
Niall P. McNamara
Theo A. van Alen
Huub J. M. Op den Camp
Christina Vimala Supramaniam
Terry J. McGenity
J. Colin Murrell
spellingShingle Ornella Carrión
Lisa Gibson
Dafydd M. O. Elias
Niall P. McNamara
Theo A. van Alen
Huub J. M. Op den Camp
Christina Vimala Supramaniam
Terry J. McGenity
J. Colin Murrell
Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation
Microbiome
Isoprene
Climate
Isoprene monooxygenase
DNA stable isotope probing
Oil palm
isoA
author_facet Ornella Carrión
Lisa Gibson
Dafydd M. O. Elias
Niall P. McNamara
Theo A. van Alen
Huub J. M. Op den Camp
Christina Vimala Supramaniam
Terry J. McGenity
J. Colin Murrell
author_sort Ornella Carrión
title Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation
title_short Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation
title_full Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation
title_fullStr Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation
title_full_unstemmed Diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a Malaysian oil palm plantation
title_sort diversity of isoprene-degrading bacteria in phyllosphere and soil communities from a high isoprene-emitting environment: a malaysian oil palm plantation
publisher BMC
series Microbiome
issn 2049-2618
publishDate 2020-06-01
description Abstract Background Isoprene is the most abundantly produced biogenic volatile organic compound (BVOC) on Earth, with annual global emissions almost equal to those of methane. Despite its importance in atmospheric chemistry and climate, little is known about the biological degradation of isoprene in the environment. The largest source of isoprene is terrestrial plants, and oil palms, the cultivation of which is expanding rapidly, are among the highest isoprene-producing trees. Results DNA stable isotope probing (DNA-SIP) to study the microbial isoprene-degrading community associated with oil palm trees revealed novel genera of isoprene-utilising bacteria including Novosphingobium, Pelomonas, Rhodoblastus, Sphingomonas and Zoogloea in both oil palm soils and on leaves. Amplicon sequencing of isoA genes, which encode the α-subunit of the isoprene monooxygenase (IsoMO), a key enzyme in isoprene metabolism, confirmed that oil palm trees harbour a novel diversity of isoA sequences. In addition, metagenome-assembled genomes (MAGs) were reconstructed from oil palm soil and leaf metagenomes and putative isoprene degradation genes were identified. Analysis of unenriched metagenomes showed that isoA-containing bacteria are more abundant in soils than in the oil palm phyllosphere. Conclusion This study greatly expands the known diversity of bacteria that can metabolise isoprene and contributes to a better understanding of the biological degradation of this important but neglected climate-active gas. Video abstract.
topic Isoprene
Climate
Isoprene monooxygenase
DNA stable isotope probing
Oil palm
isoA
url http://link.springer.com/article/10.1186/s40168-020-00860-7
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