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Metabolic profiling and gene expression analyses provide insights into cold adaptation of an Antarctic moss . | LitMetric

Metabolic profiling and gene expression analyses provide insights into cold adaptation of an Antarctic moss .

Front Plant Sci

Key Laboratory of Marine Eco-Environmental Science and Technology, First Institute of Oceanography, Ministry of Natural Resources, Qingdao, China.

Published: September 2022

AI Article Synopsis

  • Antarctica is the harshest continent, with limited vegetation mainly consisting of mosses and lichens, and understanding the cold tolerance mechanisms in these plants has been largely unexplored.
  • A study used multi-omics approaches to analyze an Antarctic moss's response to cold stress, revealing increased proline and antioxidant enzyme activities but decreased chlorophyll and flavonoid levels.
  • After analyzing 559 metabolites and conducting transcriptome sequencing, the research identified key metabolic pathways and gene expressions involved in cold acclimation, highlighting the potential impacts of climate change on Antarctic plant life.

Article Abstract

Antarctica is the coldest, driest, and most windy continent on earth. The major terrestrial vegetation consists of cryptogams (mosses and lichens) and two vascular plant species. However, the molecular mechanism of cold tolerance and relevant regulatory networks were largely unknown in these Antarctic plants. Here, we investigated the global alterations in metabolites and regulatory pathways of an Antarctic moss () under cold stress using an integrated multi-omics approach. We found that proline content and several antioxidant enzyme activities were significantly increased in under cold stress, but the contents of chlorophyll and total flavonoids were markedly decreased. A total of 559 metabolites were detected using ultra high-performance liquid chromatography/electrospray ionization tandem mass spectrometry (HPLC-ESI-MS/MS). We observed 39 and 71 differentially changed metabolites (DCMs) after 24 h and 60 h cold stress, indicating that several major pathways were differentially activated for producing fatty acids, alkaloids, flavonoids, terpenoids, and phenolic acids. In addition, the quantitative transcriptome sequencing was conducted to uncover the global transcriptional profiles of under cold stress. The representative differentially expressed genes (DEGs) were identified and summarized to the function including Ca signaling, ABA signaling, jasmonate signaling, fatty acids biosynthesis, flavonoid biosynthesis, and other biological processes. The integrated dataset analyses of metabolome and transcriptome revealed that jasmonate signaling, auxin signaling, very-long-chain fatty acids and flavonoid biosynthesis pathways might contribute to acclimating to cold stress. Overall, these observations provide insight into Antarctic moss adaptations to polar habitats and the impact of global climate change on Antarctic plants.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9514047PMC
http://dx.doi.org/10.3389/fpls.2022.1006991DOI Listing

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