Effective antifouling action of seaweed metabolite waste against marine foulers

Jamuna Suresh , Rubavathi Subbaiyan , Ayyappadasan Ganesan , Brindha Ramasubramanian
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Abstract

Fouling on ships and in marine environments leads to adverse effects, including increased drag on the engine, elevated fuel consumption, and higher CO2 emissions, all of which negatively impact the operational efficiency of the ship and worsen environmental pollution. To address these challenges, sustainable antifouling coatings derived from seaweed materials play a crucial role in mitigating fouling and providing long-lasting protection. Herein, the relationship between antifouling compounds derived from biological sources is examined through a combination of computational methods and in vitro experiments. A total of 100 compounds from both Laurencia obtusa and Acanthophora spicifera were computationally screened against Mytilus galvoprovinces (4CN8) and Megabalanus rosa (6LEK) target proteins. Thyrsiferol compound from Laurencia obtusa exhibited the maximum dock score (-8.6 kcal mol−1), and Cholestaa-6, 22,24-Triene,4,4-Dimethyl compound from Acanthophora spicifera showed the highest dock score (-8.9 kcal mol−1) against macro fouling protein. The docking study unveiled a range of dock scores indicating low to high inhibition, all associated with low toxicity effects. The in vitro study involved collecting two seaweed species using the Soxhlet extraction method, followed by antibacterial and antifouling assays against common fouling organisms. Methanol and ethanol extracts showed strong inhibitory activity, indicating the presence of bioactive compounds with significant antibacterial and antifouling effects. The primary component of Laurencia obtusa, which plays a major role in antifouling action, was identified through GC-MS as n-Hexadecanoic acid (19.340 %), while Acanthophora spicifera predominantly contained nonadecanoic acid (19.932 %).

海藻代谢废物对海洋污物的有效防污作用
船舶和海洋环境中的污垢会产生不利影响,包括增加发动机阻力、提高燃油消耗和增加二氧化碳排放,所有这些都会对船舶的运行效率产生负面影响,并加剧环境污染。为了应对这些挑战,从海藻材料中提取的可持续防污涂料在减轻污损和提供持久保护方面发挥着至关重要的作用。本文通过计算方法和体外实验相结合的方法,研究了从生物资源中提取的防污化合物之间的关系。计算筛选了来自月桂属(Laurencia obtusa)和刺棘属(Acanthophora spicifera)的共 100 种化合物,分别与 Mytilus galvoprovinces(4CN8)和 Megabalanus rosa(6LEK)的目标蛋白进行了比对。结果表明,Laurencia obtusa 的 Thyrsiferol 复合物与大污点蛋白的对接得分最高(-8.6 kcal mol-1),而 Acanthophora spicifera 的 Cholestaa-6, 22,24-Triene,4,4-Dimethyl 复合物与大污点蛋白的对接得分最高(-8.9 kcal mol-1)。对接研究揭示了一系列的对接得分,表明抑制作用从低到高,都与低毒性效应有关。体外研究包括使用索氏提取法采集两种海藻,然后对常见的污损生物进行抗菌和防污试验。甲醇和乙醇提取物显示出很强的抑制活性,表明其中含有生物活性化合物,具有显著的抗菌和防污效果。通过气相色谱-质谱(GC-MS)鉴定,Laurencia obtusa 的主要成分是正十六烷酸(19.340 %),而 Acanthophora spicifera 主要含有壬癸酸(19.932 %),壬癸酸在防污作用中发挥着重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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