Putative biosynthesis mechanism of the neurotoxin β-N-methylamino-L-alanine in marine diatoms based on a transcriptomics approach

IF 12.2 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Journal of Hazardous Materials Pub Date : 2023-01-05 DOI:10.1016/j.jhazmat.2022.129953

Aifeng Li , Yeju Yan , Jiangbing Qiu , Guowang Yan , Peng Zhao , Min Li , Ying Ji , Guixiang Wang , Fanping Meng , Yang Li , James S. Metcalf , Sandra A. Banack

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Abstract

The neurotoxin β-N-methylamino-L-alanine (BMAA) has been presumed as an environmental cause of human neurodegenerative disorders, such as Alzheimer’s disease. Marine diatoms Thalassiosira minima are demonstrated here to produce BMAA-containing proteins in axenic culture while the isomer diaminobutyric acid was bacterially produced. In the co-culture with Cyanobacterium aponinum, diatom growth was inhibited but the biosynthesis of BMAA-containing proteins was stimulated up to seven times higher than that of the control group by cell-cell interactions. The stimulation effect was not caused by the cyanobacterial filtrate. Nitrogen deprivation also doubled the BMAA content of T. minima cells. Transcriptome analysis of the diatom in mixed culture revealed that pathways involved in T. minima metabolism and cellular functions were mainly influenced, including KEGG pathways valine and leucine/isoleucine degradation, endocytosis, pantothenate and CoA biosynthesis, and SNARE interactions in vesicular transport. Based on the expression changes of genes related to protein biosynthesis, it was hypothesized that ubiquitination and autophagy suppression, and limited COPII vesicles transport accuracy and efficiency were responsible for biosynthesis of BMAA-containing proteins in T. minima. This study represents a first application of transcriptomics to investigate the biological processes associated with BMAA biosynthesis in diatoms.

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基于转录组学方法的海洋硅藻神经毒素β- n -甲氨基- l -丙氨酸的推定生物合成机制

神经毒素β- n -甲氨基- l -丙氨酸(BMAA)被认为是人类神经退行性疾病(如阿尔茨海默病)的环境原因。海洋硅藻最小海硅藻在无菌培养中产生含bmaa的蛋白质，而异构体二氨基丁酸是细菌产生的。在与aponinum蓝细菌共培养中，硅藻生长受到抑制，但含有bmaa的蛋白质的生物合成受到细胞-细胞相互作用的刺激，比对照组高7倍。蓝藻滤液不具有刺激作用。氮剥夺也使最小t细胞的BMAA含量增加了一倍。对混合培养硅藻的转录组分析表明，受影响的主要途径包括KEGG途径、缬氨酸和亮氨酸/异亮氨酸降解途径、内吞作用途径、泛酸和辅酶a生物合成途径以及SNARE途径在囊泡运输中的相互作用。基于蛋白质生物合成相关基因的表达变化，我们推测泛素化和自噬抑制以及COPII囊泡运输的准确性和效率有限是T. minima含bmaa蛋白生物合成的原因。本研究首次应用转录组学研究硅藻中与BMAA生物合成相关的生物过程。

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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来源期刊

Journal of Hazardous Materials 工程技术-工程：环境

CiteScore

25.40

自引率

5.90%

发文量

3059

审稿时长

58 days

期刊介绍： The Journal of Hazardous Materials serves as a global platform for promoting cutting-edge research in the field of Environmental Science and Engineering. Our publication features a wide range of articles, including full-length research papers, review articles, and perspectives, with the aim of enhancing our understanding of the dangers and risks associated with various materials concerning public health and the environment. It is important to note that the term "environmental contaminants" refers specifically to substances that pose hazardous effects through contamination, while excluding those that do not have such impacts on the environment or human health. Moreover, we emphasize the distinction between wastes and hazardous materials in order to provide further clarity on the scope of the journal. We have a keen interest in exploring specific compounds and microbial agents that have adverse effects on the environment.