Proteomics

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Labeling Escherichia coli to saturation with 2.5 % of 15N ammonium in two conditions (aerobic and anaerobic) for benchmarking of protein-based stable isotope probing proteomics (Protein-SIP)


ABSTRACT: This dataset is part of a study aimed at developing algorithms for the quantification of stable isotope content in microorganisms after labeling them with stable isotope-labeled substrates. For this dataset Escherichia coli cultures were labeled with 2.5 % of 15N-labeled NH4Cl and grown either anaerobically or aerobically. Cultures of E. coli were grown in M9 minimal medium in which 2.5 % of the ammonium was replaced with 15N-labeled NH4Cl for >10 generations to achieve close to complete labeling of cells. Triplicate cultures were grown. Please note that the unlabeled ammonium that was used of course had a natural content of 15N of around 0.4 %, thus the 0% added label samples have an actual 15N content of 0.4 % and all added label is on top of this value. We included a tab delimited table with this submission providing details on all raw files.

INSTRUMENT(S): Q Exactive Plus

ORGANISM(S): Escherichia Coli

SUBMITTER: Manuel Kleiner  

LAB HEAD: Manuel Kleiner

PROVIDER: PXD024288 | Pride | 2022-02-16

REPOSITORIES: Pride

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Publications

Ultra-sensitive isotope probing to quantify activity and substrate assimilation in microbiomes.

Kleiner Manuel M   Kouris Angela A   Violette Marlene M   D'Angelo Grace G   Liu Yihua Y   Korenek Abigail A   Tolić Nikola N   Sachsenberg Timo T   McCalder Janine J   Lipton Mary S MS   Strous Marc M  

Microbiome 20230209 1


<h4>Background</h4>Stable isotope probing (SIP) approaches are a critical tool in microbiome research to determine associations between species and substrates, as well as the activity of species. The application of these approaches ranges from studying microbial communities important for global biogeochemical cycling to host-microbiota interactions in the intestinal tract. Current SIP approaches, such as DNA-SIP or nanoSIMS allow to analyze incorporation of stable isotopes with high coverage of  ...[more]

Publication: 1/2

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