LC-MS metabolomic analysis of environmental stressor impacts on the metabolite diversity in Nephthea spp.

H. Januar, E. Marraskuranto, G. Patantis, E. Chasanah
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引用次数: 10

Abstract

Context: The soft coral Nephthea spp. is a source of terpenoid class that potentially has pharmaceutical properties. However, metabolite diversity and cytotoxic activity of this species are varied among coral reefs from various sites. Aim: To analyze the water quality in Nephthea spp. environment as a possible factor causing a difference in its metabolite diversity. Settings and Design: Nephthea spp. from seven sites were taken in October 2010 at the Alor District of Marine Protected Area, Indonesia. Materials and Methods: Water quality assessment was analyzed in situ and indexed by Canadian Council of Ministry Environment-Water Quality Index (CCME-WQI) method. Meanwhile, metabolite diversity was analyzed by a LC-MS metabolomic method, using C18 reversed phase and gradient water-acetonitrile system. Statistical Analysis Used: Spearman's rho and regression analysis were applied to correlate the water quality index to ecological index (richness, diversity, and evenness) from LC-MS results. Results: The water quality index had a significant positive correlation and strong linear regression determinant to the total metabolite (R 2 = 0.704), particularly to semipolar metabolite richness (R 2 = 0.809), the area of terpenoid class in the organism. Conclusion: It can be concluded that water quality may serve as a major factor that affects the amount of richness in Nephthea spp. metabolites. When the water quality is lower, as environment stresses increases, it may affect the metabolite richness within direct disrupt of metabolite biosynthesis or indirect ecological means. Terpenoids are known as a soft coral antipredator (coral fishes), the amount of which depends on the water quality.
环境胁迫对肾草代谢物多样性影响的LC-MS代谢组学分析。
背景:软珊瑚Nephthea spp.是潜在具有药用特性的萜类化合物的来源。然而,该物种的代谢物多样性和细胞毒活性在不同地点的珊瑚礁中是不同的。目的:分析水环境水质可能是导致其代谢物多样性差异的因素。环境和设计:2010年10月,在印度尼西亚的Alor海洋保护区,从七个地点拍摄了Nephthea。材料与方法:采用加拿大环境部环境-水质指数委员会(CCME-WQI)方法对水质进行现场分析和评价。同时,采用C18反相梯度水-乙腈体系,采用LC-MS代谢组学方法分析代谢物多样性。统计分析方法:采用Spearman’s rho和回归分析,将LC-MS结果中的水质指数与生态指数(丰富度、多样性和均匀度)进行相关性分析。结果:水质指数与总代谢物(r2 = 0.704)呈显著正相关,与半极代谢物丰富度(r2 = 0.809)、萜类面积呈强线性回归决定关系。结论:水质可能是影响肾草代谢物丰富度的主要因素。当水质较低时,随着环境压力的增加,可能通过直接破坏代谢物生物合成或间接生态手段影响代谢物丰富度。萜类化合物被称为软珊瑚的抗捕食者(珊瑚鱼),其数量取决于水质。
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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