Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX

Geodia barretti is a deep-sea marine sponge common in the north Atlantic and waters outside of Norway and Sweden. The sampling and subsequent treatment as well as storage of sponges for metabolomics analyses can be performed in different ways, the most commonly used being freezing (directly upon col...

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Bibliographic Details
Main Authors: Ida Erngren, Eva Smit, Curt Pettersson, Paco Cárdenas, Mikael Hedeland
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Biochemistry
Environmental Chemistry
Geochemistry
Organic Chemistry
Inorganic Chemistry
Nuclear Chemistry
Medical Biochemistry: Proteins and Peptides (incl. Medical Proteomics)
Medical Biochemistry and Metabolomics not elsewhere classified
Food Chemistry and Molecular Gastronomy (excl. Wine)
Analytical Biochemistry
Cell Neurochemistry
Enzymes
Electroanalytical Chemistry
Analytical Chemistry not elsewhere classified
Organic Green Chemistry
Physical Organic Chemistry
Catalysis and Mechanisms of Reactions
Environmental Chemistry (incl. Atmospheric Chemistry)
metabolomics
liquid chromatography–mass spectrometry
sponge (porifera)
Geodia barretti
natural products
sampling
Norway
North Atlantic
Online Access:https://doi.org/10.3389/fchem.2021.662659.s001
https://figshare.com/articles/dataset/Table1_The_Effects_of_Sampling_and_Storage_Conditions_on_the_Metabolite_Profile_of_the_Marine_Sponge_Geodia_barretti_DOCX/14562900
id ftfrontimediafig:oai:figshare.com:article/14562900
record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/14562900 2023-05-15T17:37:04+02:00 Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX Ida Erngren Eva Smit Curt Pettersson Paco Cárdenas Mikael Hedeland 2021-05-10T04:15:10Z https://doi.org/10.3389/fchem.2021.662659.s001 https://figshare.com/articles/dataset/Table1_The_Effects_of_Sampling_and_Storage_Conditions_on_the_Metabolite_Profile_of_the_Marine_Sponge_Geodia_barretti_DOCX/14562900 unknown doi:10.3389/fchem.2021.662659.s001 https://figshare.com/articles/dataset/Table1_The_Effects_of_Sampling_and_Storage_Conditions_on_the_Metabolite_Profile_of_the_Marine_Sponge_Geodia_barretti_DOCX/14562900 CC BY 4.0 CC-BY Biochemistry Environmental Chemistry Geochemistry Organic Chemistry Inorganic Chemistry Nuclear Chemistry Medical Biochemistry: Proteins and Peptides (incl. Medical Proteomics) Medical Biochemistry and Metabolomics not elsewhere classified Food Chemistry and Molecular Gastronomy (excl. Wine) Analytical Biochemistry Cell Neurochemistry Enzymes Electroanalytical Chemistry Analytical Chemistry not elsewhere classified Organic Green Chemistry Physical Organic Chemistry Catalysis and Mechanisms of Reactions Environmental Chemistry (incl. Atmospheric Chemistry) metabolomics liquid chromatography–mass spectrometry sponge (porifera) Geodia barretti natural products sampling Dataset 2021 ftfrontimediafig https://doi.org/10.3389/fchem.2021.662659.s001 2021-05-12T22:59:15Z Geodia barretti is a deep-sea marine sponge common in the north Atlantic and waters outside of Norway and Sweden. The sampling and subsequent treatment as well as storage of sponges for metabolomics analyses can be performed in different ways, the most commonly used being freezing (directly upon collection or later) or by storage in solvent, commonly ethanol, followed by freeze-drying. In this study we therefore investigated different sampling protocols and their effects on the detected metabolite profiles in liquid chromatography-mass spectrometry (LC-MS) using an untargeted metabolomics approach. Sponges (G. barretti) were collected outside the Swedish west coast and pieces from three sponge specimens were either flash frozen in liquid nitrogen, frozen later after the collection cruise, stored in ethanol or stored in methanol. The storage solvents as well as the actual sponge pieces were analyzed, all samples were analyzed with hydrophilic interaction liquid chromatography as well as reversed phase liquid chromatography with high resolution mass spectrometry using full-scan in positive and negative ionization mode. The data were evaluated using multivariate data analysis. The highest metabolite intensities were found in the frozen samples (flash frozen and frozen after sampling cruise) as well as in the storage solvents (methanol and ethanol). Metabolites extracted from the sponge pieces that had been stored in solvent were found in very low intensity, since the majority of metabolites were extracted to the solvents to a high degree. The exception being larger peptides and some lipids. The lowest variation between replicates were found in the flash frozen samples. In conclusion, the preferred method for sampling of sponges for metabolomics was found to be immediate freezing in liquid nitrogen. However, freezing the sponge samples after some time proved to be a reliable method as well, albeit with higher variation between the replicates. The study highlights the importance of saving ethanol extracts after ... Dataset North Atlantic Frontiers: Figshare Norway
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Biochemistry
Environmental Chemistry
Geochemistry
Organic Chemistry
Inorganic Chemistry
Nuclear Chemistry
Medical Biochemistry: Proteins and Peptides (incl. Medical Proteomics)
Medical Biochemistry and Metabolomics not elsewhere classified
Food Chemistry and Molecular Gastronomy (excl. Wine)
Analytical Biochemistry
Cell Neurochemistry
Enzymes
Electroanalytical Chemistry
Analytical Chemistry not elsewhere classified
Organic Green Chemistry
Physical Organic Chemistry
Catalysis and Mechanisms of Reactions
Environmental Chemistry (incl. Atmospheric Chemistry)
metabolomics
liquid chromatography–mass spectrometry
sponge (porifera)
Geodia barretti
natural products
sampling
spellingShingle Biochemistry
Environmental Chemistry
Geochemistry
Organic Chemistry
Inorganic Chemistry
Nuclear Chemistry
Medical Biochemistry: Proteins and Peptides (incl. Medical Proteomics)
Medical Biochemistry and Metabolomics not elsewhere classified
Food Chemistry and Molecular Gastronomy (excl. Wine)
Analytical Biochemistry
Cell Neurochemistry
Enzymes
Electroanalytical Chemistry
Analytical Chemistry not elsewhere classified
Organic Green Chemistry
Physical Organic Chemistry
Catalysis and Mechanisms of Reactions
Environmental Chemistry (incl. Atmospheric Chemistry)
metabolomics
liquid chromatography–mass spectrometry
sponge (porifera)
Geodia barretti
natural products
sampling
Ida Erngren
Eva Smit
Curt Pettersson
Paco Cárdenas
Mikael Hedeland
Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX
topic_facet Biochemistry
Environmental Chemistry
Geochemistry
Organic Chemistry
Inorganic Chemistry
Nuclear Chemistry
Medical Biochemistry: Proteins and Peptides (incl. Medical Proteomics)
Medical Biochemistry and Metabolomics not elsewhere classified
Food Chemistry and Molecular Gastronomy (excl. Wine)
Analytical Biochemistry
Cell Neurochemistry
Enzymes
Electroanalytical Chemistry
Analytical Chemistry not elsewhere classified
Organic Green Chemistry
Physical Organic Chemistry
Catalysis and Mechanisms of Reactions
Environmental Chemistry (incl. Atmospheric Chemistry)
metabolomics
liquid chromatography–mass spectrometry
sponge (porifera)
Geodia barretti
natural products
sampling
description Geodia barretti is a deep-sea marine sponge common in the north Atlantic and waters outside of Norway and Sweden. The sampling and subsequent treatment as well as storage of sponges for metabolomics analyses can be performed in different ways, the most commonly used being freezing (directly upon collection or later) or by storage in solvent, commonly ethanol, followed by freeze-drying. In this study we therefore investigated different sampling protocols and their effects on the detected metabolite profiles in liquid chromatography-mass spectrometry (LC-MS) using an untargeted metabolomics approach. Sponges (G. barretti) were collected outside the Swedish west coast and pieces from three sponge specimens were either flash frozen in liquid nitrogen, frozen later after the collection cruise, stored in ethanol or stored in methanol. The storage solvents as well as the actual sponge pieces were analyzed, all samples were analyzed with hydrophilic interaction liquid chromatography as well as reversed phase liquid chromatography with high resolution mass spectrometry using full-scan in positive and negative ionization mode. The data were evaluated using multivariate data analysis. The highest metabolite intensities were found in the frozen samples (flash frozen and frozen after sampling cruise) as well as in the storage solvents (methanol and ethanol). Metabolites extracted from the sponge pieces that had been stored in solvent were found in very low intensity, since the majority of metabolites were extracted to the solvents to a high degree. The exception being larger peptides and some lipids. The lowest variation between replicates were found in the flash frozen samples. In conclusion, the preferred method for sampling of sponges for metabolomics was found to be immediate freezing in liquid nitrogen. However, freezing the sponge samples after some time proved to be a reliable method as well, albeit with higher variation between the replicates. The study highlights the importance of saving ethanol extracts after ...
format Dataset
author Ida Erngren
Eva Smit
Curt Pettersson
Paco Cárdenas
Mikael Hedeland
author_facet Ida Erngren
Eva Smit
Curt Pettersson
Paco Cárdenas
Mikael Hedeland
author_sort Ida Erngren
title Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX
title_short Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX
title_full Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX
title_fullStr Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX
title_full_unstemmed Table1_The Effects of Sampling and Storage Conditions on the Metabolite Profile of the Marine Sponge Geodia barretti.DOCX
title_sort table1_the effects of sampling and storage conditions on the metabolite profile of the marine sponge geodia barretti.docx
publishDate 2021
url https://doi.org/10.3389/fchem.2021.662659.s001
https://figshare.com/articles/dataset/Table1_The_Effects_of_Sampling_and_Storage_Conditions_on_the_Metabolite_Profile_of_the_Marine_Sponge_Geodia_barretti_DOCX/14562900
geographic Norway
geographic_facet Norway
genre North Atlantic
genre_facet North Atlantic
op_relation doi:10.3389/fchem.2021.662659.s001
https://figshare.com/articles/dataset/Table1_The_Effects_of_Sampling_and_Storage_Conditions_on_the_Metabolite_Profile_of_the_Marine_Sponge_Geodia_barretti_DOCX/14562900
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fchem.2021.662659.s001
_version_ 1766136802926657536

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