Pereira_2026_Biomolecules_16_

Reference

Title : Structure-Activity Relationships, Molecular Mechanisms, and Ecotoxicological Evaluation Underlying Nucleoside-Mediated Antifouling Activity - Pereira_2026_Biomolecules_16_
Author(s) : Pereira S , Oliveira IB , Palmeira A , Turkina MV , Vasconcelos V , Campos A , Almeida JR
Ref : Biomolecules , 16 : , 2026
Abstract :

Marine biofouling remains a major challenge for maritime industries, affecting submerged structures and vessels worldwide. The long-standing reliance on biocidal coatings, together with their documented environmental impacts, has led to increasingly restrictive regulations and an urgent demand for environmentally compatible antifouling (AF) solutions. This study evaluates the AF potential and toxicological profile of two nucleoside analogues, hypoxanthine arabinoside (1') and 2'-deoxyinosine (2'), selected based on the previously reported non-lethal AF activity of the naturally occurring nucleosides adenosine and 2'-deoxyadenosine from cyanobacteria. Both analogues inhibited the growth of Navicula sp. by approximately 60% without inducing mortality and significantly reduced settlement of Mytilus galloprovincialis plantigrades, with EC(50) values of 5.50 microM (1') and 8.54 microM (2'), and no lethality detected (LC(50) > 200 microM). At near-EC(50) concentrations, both compounds increased acetylcholinesterase and tyrosinase activities, supported by molecular docking results, suggesting involvement of neurotransmission- and byssal formation-related pathways. Proteomic analysis revealed compound-specific molecular responses. No lethal effects were observed in non-target organisms (LC(50) > 32 microM for A. amphitrite and LC(50) > 50 microM for A. salina), and environmental fate modelling predicted low bioaccumulation and rapid degradation. Overall, substitution of the amino group by a carbonyl group preserved AF efficacy without increasing toxicity, highlighting nucleosides as promising low-toxicity AF agents.

PubMedSearch : Pereira_2026_Biomolecules_16_
PubMedID: 42072704

Related information

Citations formats

Pereira S, Oliveira IB, Palmeira A, Turkina MV, Vasconcelos V, Campos A, Almeida JR (2026)
Structure-Activity Relationships, Molecular Mechanisms, and Ecotoxicological Evaluation Underlying Nucleoside-Mediated Antifouling Activity
Biomolecules 16 :

Pereira S, Oliveira IB, Palmeira A, Turkina MV, Vasconcelos V, Campos A, Almeida JR (2026)
Biomolecules 16 :