Physiological and Molecular Response Mechanisms of Betaphycus gelatinus to Low- and High-Temperature Stress
Yongqiu Deng, Siqi Xu, Kangtai Liao, Linwen He

TL;DR
This study explores how the seaweed Betaphycus gelatinus responds to low and high temperature stress, revealing physiological and molecular changes that could help improve its resilience to climate fluctuations.
Contribution
The study identifies specific molecular and physiological mechanisms in Betaphycus gelatinus under temperature stress, offering insights for developing climate-resilient strains.
Findings
Photosynthetic performance declines under both low and high temperature stress in Betaphycus gelatinus.
Most genes in key metabolic pathways are downregulated under temperature stress, with only a few upregulated genes potentially aiding in stress adaptation.
Low temperature increases carotenoid content and antioxidant enzyme activity, while high temperature affects antioxidant enzymes differently.
Abstract
Betaphycus gelatinus, a member of the Eucheumatoideae, serves as the primary source for carrageenan extraction and has significant economic value. The growth and reproduction of B. gelatinus are significantly impacted by seasonal fluctuations in seawater temperature. To explore its adaptive mechanisms under temperature stress, we cultured the algae at 15 °C (Low temperature, LT), 27 °C (Medium temperature, MT), and 36 °C (High temperature, HT) for 2 h and conducted subsequent physiological, transcriptomics, and metabolomics analyses. The photosynthetic performance of B. gelatinus significantly declined under both LT and HT stress conditions. Carotenoid content increased significantly under LT conditions, while chlorophyll a showed no significant change. Phycocyanin and phycoerythrin decreased significantly under LT conditions, but there was no significant difference under HT conditions.…
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Taxonomy
TopicsMarine and coastal plant biology · Seaweed-derived Bioactive Compounds · Marine Bivalve and Aquaculture Studies
