A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample

Extracellular DNA (eDNA) is a ubiquitous biological compound in aquatic sediment and soil. Previous studies suggested that eDNA plays an important role in biogeochemical element cycling, horizontal gene transfer and stabilization of biofilm structures. Previous methods for eDNA extraction were eithe...

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Bibliographic Details
Published in:Journal of Microbiological Methods
Main Authors: Alawi, Mashal, Schneider, Beate, Kallmeyer, Jens (Dr.)
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Institut für Geowissenschaften
Barents Sea
Pacific
Online Access:https://publishup.uni-potsdam.de/opus4-ubp/frontdoor/index/index/docId/37608
https://doi.org/10.1016/j.mimet.2014.06.009
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spelling ftubpotsdam:oai:kobv.de-opus4-uni-potsdam:37608 2023-05-15T15:38:59+02:00 A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample Alawi, Mashal Schneider, Beate Kallmeyer, Jens (Dr.) 2014 https://publishup.uni-potsdam.de/opus4-ubp/frontdoor/index/index/docId/37608 https://doi.org/10.1016/j.mimet.2014.06.009 eng eng https://publishup.uni-potsdam.de/opus4-ubp/frontdoor/index/index/docId/37608 https://doi.org/10.1016/j.mimet.2014.06.009 info:eu-repo/semantics/closedAccess Institut für Geowissenschaften article doc-type:article 2014 ftubpotsdam https://doi.org/10.1016/j.mimet.2014.06.009 2022-07-28T20:46:27Z Extracellular DNA (eDNA) is a ubiquitous biological compound in aquatic sediment and soil. Previous studies suggested that eDNA plays an important role in biogeochemical element cycling, horizontal gene transfer and stabilization of biofilm structures. Previous methods for eDNA extraction were either not suitable for oligotrophic sediments or only allowed quantification but no genetic analyses. Our procedure is based on cell detachment and eDNA liberation from sediment particles by sequential washing with an alkaline sodium phosphate buffer followed by a separation of cells and eDNA. The separated eDNA is then bound onto silica particles and purified, whereas the intracellular DNA from the separated cells is extracted using a commercial kit. The method provides extra- and intracellular DNA of high purity that is suitable for downstream applications like PCR. Extracellular DNA was extracted from organic-rich shallow sediment of the Baltic Sea, glacially influenced sediment of the Barents Sea and from the oligotrophic South Pacific Gyre. The eDNA concentration in these samples varied from 23 to 626 ng g(-1) wet weight sediment. A number of experiments were performed to verify each processing step. Although extraction efficiency is higher than other published methods, it is not fully quantitative. (C) 2014 Elsevier B.V. All rights reserved. Article in Journal/Newspaper Barents Sea University of Potsdam: publish.UP Barents Sea Pacific Journal of Microbiological Methods 104 36 42
institution Open Polar
collection University of Potsdam: publish.UP
op_collection_id ftubpotsdam
language English
topic Institut für Geowissenschaften
spellingShingle Institut für Geowissenschaften
Alawi, Mashal
Schneider, Beate
Kallmeyer, Jens (Dr.)
A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample
topic_facet Institut für Geowissenschaften
description Extracellular DNA (eDNA) is a ubiquitous biological compound in aquatic sediment and soil. Previous studies suggested that eDNA plays an important role in biogeochemical element cycling, horizontal gene transfer and stabilization of biofilm structures. Previous methods for eDNA extraction were either not suitable for oligotrophic sediments or only allowed quantification but no genetic analyses. Our procedure is based on cell detachment and eDNA liberation from sediment particles by sequential washing with an alkaline sodium phosphate buffer followed by a separation of cells and eDNA. The separated eDNA is then bound onto silica particles and purified, whereas the intracellular DNA from the separated cells is extracted using a commercial kit. The method provides extra- and intracellular DNA of high purity that is suitable for downstream applications like PCR. Extracellular DNA was extracted from organic-rich shallow sediment of the Baltic Sea, glacially influenced sediment of the Barents Sea and from the oligotrophic South Pacific Gyre. The eDNA concentration in these samples varied from 23 to 626 ng g(-1) wet weight sediment. A number of experiments were performed to verify each processing step. Although extraction efficiency is higher than other published methods, it is not fully quantitative. (C) 2014 Elsevier B.V. All rights reserved.
format Article in Journal/Newspaper
author Alawi, Mashal
Schneider, Beate
Kallmeyer, Jens (Dr.)
author_facet Alawi, Mashal
Schneider, Beate
Kallmeyer, Jens (Dr.)
author_sort Alawi, Mashal
title A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample
title_short A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample
title_full A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample
title_fullStr A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample
title_full_unstemmed A procedure for separate recovery of extra- and intracellular DNA from a single marine sediment sample
title_sort procedure for separate recovery of extra- and intracellular dna from a single marine sediment sample
publishDate 2014
url https://publishup.uni-potsdam.de/opus4-ubp/frontdoor/index/index/docId/37608
https://doi.org/10.1016/j.mimet.2014.06.009
geographic Barents Sea
Pacific
geographic_facet Barents Sea
Pacific
genre Barents Sea
genre_facet Barents Sea
op_relation https://publishup.uni-potsdam.de/opus4-ubp/frontdoor/index/index/docId/37608
https://doi.org/10.1016/j.mimet.2014.06.009
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.1016/j.mimet.2014.06.009
container_title Journal of Microbiological Methods
container_volume 104
container_start_page 36
op_container_end_page 42
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