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Molecular Mechanisms of Nostoc flagelliforme Environmental Adaptation: A Comprehensive Review

Jin‐Long Shang, Y Xie, Lu-Yao Shi, Shuo-Ren Diao, Jin-Yan Guan

2025Plants8 citationsDOIOpen Access PDF

Abstract

Nostoc flagelliforme, a filamentous cyanobacterium inhabiting desert biological soil crusts (BSCs), has developed exceptional strategies to endure extreme environmental stresses, including severe desiccation, intense ultraviolet (UV) radiation, and drastic temperature fluctuations. These organisms must effectively sense and predict environmental changes, particularly the onset of desiccation. This review explores recent advancements in the molecular mechanisms that enable N. flagelliforme to survive under such harsh conditions, with a focus on stress signal sensing, transduction pathways, and photosynthetic adjustments. Key molecular adaptations include the production of extracellular polysaccharide (EPS) sheaths for water retention, the accumulation of compatible solutes like trehalose, and the synthesis of UV-absorbing compounds such as scytonemin and mycosporine-like amino acids (MAAs). Furthermore, N. flagelliforme utilizes a complex signal transduction network, including light-sensing pathways, to regulate responses to rehydration and desiccation cycles. This review emphasizes the integrative nature of N. flagelliforme’s adaptive mechanisms and highlights their potential for biotechnological applications, such as enhancing drought tolerance in crops and advancing ecological restoration in arid regions.

Topics & Concepts

NostocAdaptation (eye)BiologyGeographyCyanobacteriaNeuroscienceGeneticsBacteriaBiocrusts and Microbial EcologyDiatoms and Algae ResearchProtist diversity and phylogeny
Molecular Mechanisms of Nostoc flagelliforme Environmental Adaptation: A Comprehensive Review | Litcius