Development and application of primers for the class Dehalococcoidia (phylum Chloroflexi) enables deep insights into diversity and stratification of subgroups in the marine subsurface

Development and application of primers for the class Dehalococcoidia (phylum Chloroflexi) enables deep insights into diversity and stratification of subgroups in the marine subsurface

Summary Bacteria of the class Dehalococcoidia (DEH) (phylum Chloroflexi) are widely distributed in the marine subsurface and are especially prevalent in deep marine sediments. Nevertheless, little is known about the specific distributions of DEH subgroups at different sites and depths. This study th...

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Veröffentlicht in:Environmental microbiology 2015-10, Vol.17 (10), p.3540-3556
Hauptverfasser: Wasmund, Kenneth, Algora, Camelia, Müller, Josefine, Krüger, Martin, Lloyd, Karen G., Reinhardt, Richard, Adrian, Lorenz
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Sprache:eng
Schlagworte:
Aquatic Organisms - classification
Aquatic Organisms - genetics
Base Sequence
Biodiversity
Biogeochemistry
Chloroflexi - classification
Chloroflexi - genetics
Chloroflexi - isolation & purification
DNA Primers - genetics
DNA, Bacterial - genetics
Genomics
Geologic Sediments - microbiology
Metabolism
Phylogeny
RNA, Ribosomal, 16S - genetics
Sediments
Sequence Analysis, DNA
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container_end_page 3556
container_issue 10
container_start_page 3540
container_title Environmental microbiology
container_volume 17
creator Wasmund, Kenneth
Algora, Camelia
Müller, Josefine
Krüger, Martin
Lloyd, Karen G.
Reinhardt, Richard
Adrian, Lorenz
description Summary Bacteria of the class Dehalococcoidia (DEH) (phylum Chloroflexi) are widely distributed in the marine subsurface and are especially prevalent in deep marine sediments. Nevertheless, little is known about the specific distributions of DEH subgroups at different sites and depths. This study therefore specifically examined the distributions of DEH through depths of various marine sediment cores by quantitative PCR and pyrosequencing using newly designed DEH 16S rRNA gene targeting primers. Quantification of DEH showed populations may establish in shallow sediments (i.e. upper centimetres), although as low relative proportions of total Bacteria, yet often became more prevalent in deeper sediments. Pyrosequencing revealed pronounced diversity co‐exists within single biogeochemical zones, and that clear and sometimes abrupt shifts in relative proportions of DEH subgroups occur with depth. These shifts indicate varying metabolic properties exist among DEH subgroups. The distributional changes in DEH subgroups with depth may be related to a combination of biogeochemical factors including the availability of electron acceptors such as sulfate, the composition of organic matter and depositional regimes. Collectively, the results suggest DEH exhibit wider metabolic and genomic diversity than previously recognized, and this contributes to their widespread occurrence in the marine subsurface.
doi_str_mv 10.1111/1462-2920.12510
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Nevertheless, little is known about the specific distributions of DEH subgroups at different sites and depths. This study therefore specifically examined the distributions of DEH through depths of various marine sediment cores by quantitative PCR and pyrosequencing using newly designed DEH 16S rRNA gene targeting primers. Quantification of DEH showed populations may establish in shallow sediments (i.e. upper centimetres), although as low relative proportions of total Bacteria, yet often became more prevalent in deeper sediments. Pyrosequencing revealed pronounced diversity co‐exists within single biogeochemical zones, and that clear and sometimes abrupt shifts in relative proportions of DEH subgroups occur with depth. These shifts indicate varying metabolic properties exist among DEH subgroups. The distributional changes in DEH subgroups with depth may be related to a combination of biogeochemical factors including the availability of electron acceptors such as sulfate, the composition of organic matter and depositional regimes. 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Nevertheless, little is known about the specific distributions of DEH subgroups at different sites and depths. This study therefore specifically examined the distributions of DEH through depths of various marine sediment cores by quantitative PCR and pyrosequencing using newly designed DEH 16S rRNA gene targeting primers. Quantification of DEH showed populations may establish in shallow sediments (i.e. upper centimetres), although as low relative proportions of total Bacteria, yet often became more prevalent in deeper sediments. Pyrosequencing revealed pronounced diversity co‐exists within single biogeochemical zones, and that clear and sometimes abrupt shifts in relative proportions of DEH subgroups occur with depth. These shifts indicate varying metabolic properties exist among DEH subgroups. The distributional changes in DEH subgroups with depth may be related to a combination of biogeochemical factors including the availability of electron acceptors such as sulfate, the composition of organic matter and depositional regimes. Collectively, the results suggest DEH exhibit wider metabolic and genomic diversity than previously recognized, and this contributes to their widespread occurrence in the marine subsurface.</abstract><cop>England</cop><pub>Blackwell Publishing Ltd</pub><pmid>24889097</pmid><doi>10.1111/1462-2920.12510</doi><tpages>17</tpages><orcidid>https://orcid.org/0000-0001-6706-7291</orcidid></addata></record>
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source MEDLINE; Wiley Journals
subjects Aquatic Organisms - classification
Aquatic Organisms - genetics
Base Sequence
Biodiversity
Biogeochemistry
Chloroflexi - classification
Chloroflexi - genetics
Chloroflexi - isolation & purification
DNA Primers - genetics
DNA, Bacterial - genetics
Genomics
Geologic Sediments - microbiology
Metabolism
Phylogeny
RNA, Ribosomal, 16S - genetics
Sediments
Sequence Analysis, DNA
title Development and application of primers for the class Dehalococcoidia (phylum Chloroflexi) enables deep insights into diversity and stratification of subgroups in the marine subsurface
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