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Integrated transcriptome and metabolome analyses reveal the adaptation of Antarctic moss to drought stress. | LitMetric

Integrated transcriptome and metabolome analyses reveal the adaptation of Antarctic moss to drought stress.

Front Plant Sci

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

Published: August 2022

AI Article Synopsis

  • Climate change is causing increased dryness in Antarctica, affecting the dominant vegetation like mosses and lichens, yet their adaptive mechanisms to drought are not well understood.
  • A study analyzed the responses of an Antarctic moss to drought stress, finding significant changes like yellowing and curling of gametophytes, increased malondialdehyde and proline levels, and the activation of antioxidant enzymes.
  • They discovered 2,451 differentially expressed genes involved in various stress responses and 354 altered metabolites, with flavonoids and lipids being the most affected, highlighting the crucial role of specific signaling pathways in the moss's adaptation to drought conditions.

Article Abstract

Most regions of the Antarctic continent are experiencing increased dryness due to global climate change. Mosses and lichens are the dominant vegetation of the ice-free areas of Antarctica. However, the molecular mechanisms of these Antarctic plants adapting to drought stress are less documented. Here, transcriptome and metabolome analyses were employed to reveal the responses of an Antarctic moss ( subsp. LIU) to drought stress. We found that drought stress made the gametophytes turn yellow and curled, and enhanced the contents of malondialdehyde and proline, and the activities of antioxidant enzymes. Totally, 2,451 differentially expressed genes (DEGs) were uncovered under drought treatment. The representative DEGs are mainly involved in ROS-scavenging and detoxification, flavonoid metabolism pathway, plant hormone signaling pathway, lipids metabolism pathway, transcription factors and signal-related genes. Meanwhile, a total of 354 differentially changed metabolites (DCMs) were detected in the metabolome analysis. Flavonoids and lipids were the most abundant metabolites and they accounted for 41.53% of the significantly changed metabolites. In addition, integrated transcriptome and metabolome analyses revealed co-expression patterns of flavonoid and long-chain fatty acid biosynthesis genes and their metabolites. Finally, qPCR analysis demonstrated that the expression levels of stress-related genes were significantly increased. These genes included those involved in ABA signaling pathway (, , , and ), jasmonate signaling pathway (, , , and ), flavonoid pathway (, , , , , and ), antioxidant and detoxifying functions (, , and ), and transcription factors ( and ). In summary, we speculated that were highly dependent on ABA and jasmonate signaling pathways, ROS scavenging, flavonoids and fatty acid metabolism in response to drought stress. These findings present an important knowledge for assessing the impact of coastal climate change on Antarctic basal plants.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9403716PMC
http://dx.doi.org/10.3389/fpls.2022.924162DOI Listing

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