Mass spectrometry imaging of Antarctic Ulva and its native microbiome with AP-SMALDI-HRMS

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Vallet, Marine, 2025, "Mass spectrometry imaging of Antarctic Ulva and its native microbiome with AP-SMALDI-HRMS", https://doi.org/10.17617/3.HJPDTU, Edmond, V1

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Description	The algal holobiont, which consists of algae and the bacteria living on it, has developed strategies to handle environmental stresses, such as changes in temperature. The green alga Ulva (Chlorophyta) hosts bacteria that promote algal growth and development, from germlings to mature plants. These associated bacteria produce bioactive compounds, including thallusin, N-acyl homoserine lactones, and ectoine, which contribute critically to the growth, development, and overall physiological fitness of the algal host. However, there is limited research on the metabolome of cold-adapted Ulva holobionts, especially those from hard-to-reach regions like Antarctica, and how they respond to environmental changes. This study uses high-resolution mass spectrometry to examine heat induced shifts of osmolytes and zwitter ion in Ulva collected in the Antarctic ecosystem of Potter Cove, King Georg Island. We identified small polar and zwitterionic metabolites, such as cysteinolic acid, ectoine, glutamine, glycerol, and proline, in Ulva tissues analyzed with Ultra-High-Performance Liquid Chromatography coupled with High-resolution Mass Spectrometry (UHPLC-HRMS). We localized these metabolites with atmospheric pressure matrix-assisted laser desorption/ionization (AP-SMALDI) imaging. Finally, we revealed that their levels change significantly in the heat-stressed Antarctic Ulva holobiont, suggesting that environmental changes substantially impact cold-adapted seaweeds from polar regions.
Subject	Biology; Chemistry
Keyword	mass spectrometry imaging, metabolomics, Ulva, seaweed, macroalga, polar research, holobiont, antarctic research
Related Publication	Heat-Induced Metabolomic Shifts in Cold-Adapted Ulva Holobionts from Antarctica (Potter Cove, King George Island)
License/Data Use Agreement	CC0 1.0

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	Analysis of standards with AP-SMALDI-HRMS.zip ZIP Archive - 7.7 MB Published Jul 1, 2025 2 Downloads MD5: 79c47df7a3a66bf68b9b8bc7b4cef4ea	Preview "Analysis of standards with AP-SMALDI-HRMS.zip" Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	MALDI Ulva Antarctica Extraction Ion Images.zip ZIP Archive - 301.4 KB Published Jul 1, 2025 2 Downloads MD5: 934e1f415db1acefb11f8d2e7b955d87	Preview "MALDI Ulva Antarctica Extraction Ion Images.zip" Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	Mass spectrometry imaging Ulva.zip ZIP Archive - 503.8 MB Published Jul 1, 2025 1 Download MD5: c54fd8ba2644605fa3dc775e3ecc8d55	Preview "Mass spectrometry imaging Ulva.zip" Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX

Citation Metadata

Persistent Identifier	doi:10.17617/3.HJPDTU
Publication Date	2025-07-01
Title	Mass spectrometry imaging of Antarctic Ulva and its native microbiome with AP-SMALDI-HRMS
Author	Vallet, Marine MPI for Chemical Ecology
Description	The algal holobiont, which consists of algae and the bacteria living on it, has developed strategies to handle environmental stresses, such as changes in temperature. The green alga Ulva (Chlorophyta) hosts bacteria that promote algal growth and development, from germlings to mature plants. These associated bacteria produce bioactive compounds, including thallusin, N-acyl homoserine lactones, and ectoine, which contribute critically to the growth, development, and overall physiological fitness of the algal host. However, there is limited research on the metabolome of cold-adapted Ulva holobionts, especially those from hard-to-reach regions like Antarctica, and how they respond to environmental changes. This study uses high-resolution mass spectrometry to examine heat induced shifts of osmolytes and zwitter ion in Ulva collected in the Antarctic ecosystem of Potter Cove, King Georg Island. We identified small polar and zwitterionic metabolites, such as cysteinolic acid, ectoine, glutamine, glycerol, and proline, in Ulva tissues analyzed with Ultra-High-Performance Liquid Chromatography coupled with High-resolution Mass Spectrometry (UHPLC-HRMS). We localized these metabolites with atmospheric pressure matrix-assisted laser desorption/ionization (AP-SMALDI) imaging. Finally, we revealed that their levels change significantly in the heat-stressed Antarctic Ulva holobiont, suggesting that environmental changes substantially impact cold-adapted seaweeds from polar regions.
Subject	Biology; Chemistry
Keyword	mass spectrometry imaging metabolomics Ulva seaweed macroalga polar research holobiont antarctic research
Language	English
Depositor	Vallet, Marine
Deposit Date	2025-07-01
Software	MSIReader
Related Publication	Heat-Induced Metabolomic Shifts in Cold-Adapted Ulva Holobionts from Antarctica (Potter Cove, King George Island)

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