Decrypting bacterial polyphenol metabolism in an anoxic wetland soil
It is thought that polyphenols inhibit organic matter decomposition in soils devoid of oxygen. Here the authors use metabolomics and genome-resolved metaproteomics to provide experimental evidence of polyphenol biodegradation and maintained soil microbial community metabolism despite anoxia.
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2021-04-01
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Series: | Nature Communications |
Online Access: | https://doi.org/10.1038/s41467-021-22765-1 |
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doaj-ddb0a7a377d640a7a2fe12b0cc7e04ea2021-05-02T11:12:43ZengNature Publishing GroupNature Communications2041-17232021-04-0112111610.1038/s41467-021-22765-1Decrypting bacterial polyphenol metabolism in an anoxic wetland soilBridget B. McGivern0Malak M. Tfaily1Mikayla A. Borton2Suzanne M. Kosina3Rebecca A. Daly4Carrie D. Nicora5Samuel O. Purvine6Allison R. Wong7Mary S. Lipton8David W. Hoyt9Trent R. Northen10Ann E. Hagerman11Kelly C. Wrighton12Colorado State UniversityUniversity of ArizonaColorado State UniversityEnvironmental Genomics and Systems Biology, Lawrence Berkeley National LaboratoryColorado State UniversityPacific Northwest National LaboratoryPacific Northwest National LaboratoryPacific Northwest National LaboratoryEnvironmental Genomics and Systems Biology, Lawrence Berkeley National LaboratoryPacific Northwest National LaboratoryUniversity of ArizonaMiami UniversityColorado State UniversityIt is thought that polyphenols inhibit organic matter decomposition in soils devoid of oxygen. Here the authors use metabolomics and genome-resolved metaproteomics to provide experimental evidence of polyphenol biodegradation and maintained soil microbial community metabolism despite anoxia.https://doi.org/10.1038/s41467-021-22765-1 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Bridget B. McGivern Malak M. Tfaily Mikayla A. Borton Suzanne M. Kosina Rebecca A. Daly Carrie D. Nicora Samuel O. Purvine Allison R. Wong Mary S. Lipton David W. Hoyt Trent R. Northen Ann E. Hagerman Kelly C. Wrighton |
spellingShingle |
Bridget B. McGivern Malak M. Tfaily Mikayla A. Borton Suzanne M. Kosina Rebecca A. Daly Carrie D. Nicora Samuel O. Purvine Allison R. Wong Mary S. Lipton David W. Hoyt Trent R. Northen Ann E. Hagerman Kelly C. Wrighton Decrypting bacterial polyphenol metabolism in an anoxic wetland soil Nature Communications |
author_facet |
Bridget B. McGivern Malak M. Tfaily Mikayla A. Borton Suzanne M. Kosina Rebecca A. Daly Carrie D. Nicora Samuel O. Purvine Allison R. Wong Mary S. Lipton David W. Hoyt Trent R. Northen Ann E. Hagerman Kelly C. Wrighton |
author_sort |
Bridget B. McGivern |
title |
Decrypting bacterial polyphenol metabolism in an anoxic wetland soil |
title_short |
Decrypting bacterial polyphenol metabolism in an anoxic wetland soil |
title_full |
Decrypting bacterial polyphenol metabolism in an anoxic wetland soil |
title_fullStr |
Decrypting bacterial polyphenol metabolism in an anoxic wetland soil |
title_full_unstemmed |
Decrypting bacterial polyphenol metabolism in an anoxic wetland soil |
title_sort |
decrypting bacterial polyphenol metabolism in an anoxic wetland soil |
publisher |
Nature Publishing Group |
series |
Nature Communications |
issn |
2041-1723 |
publishDate |
2021-04-01 |
description |
It is thought that polyphenols inhibit organic matter decomposition in soils devoid of oxygen. Here the authors use metabolomics and genome-resolved metaproteomics to provide experimental evidence of polyphenol biodegradation and maintained soil microbial community metabolism despite anoxia. |
url |
https://doi.org/10.1038/s41467-021-22765-1 |
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