Molybdenum-mediated chemotaxis of Pseudoalteromonas lipolytica enhances biofilm-induced mineralization on low alloy steel surface

Guo Zhangwei; Wang Weiquan; Guo Na; Zeng Zhenshun; Liu Tao; Wang Xiaoxue

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Molybdenum-mediated chemotaxis of Pseudoalteromonas lipolytica enhances biofilm-induced mineralization on low alloy steel surface

机译：钼介导的解脂假单胞菌的趋化作用增强了低合金钢表面上生物膜诱导的矿化作用

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Formation of biofilm and the subsequent biomineralization on the steel surface are highly influenced by the steel surface properties. Molybdenum (Mo) is a commonly used metal in steel, which can improve its strength and resistance to corrosion. Herein, the effect of Mo on the biomineralization process was investigated by designing low alloy steels containing different concentrations of Mo. Surface characterization showed that moderate concentrations of Mo (such as 0.6 wt%) significantly enhanced the biofilm formation and the mineralization process. Mechanistically, it is demonstrated that Mo ions served as a chemical attractant for Pseudoalteromonas lipolytica and activated the chemotaxis pathway.

机译：生物膜的形成以及随后在钢表面上的生物矿化受钢表面性能的影响很大。钼（Mo）是钢中常用的金属，可以提高强度和耐腐蚀性。本文中，通过设计含有不同浓度Mo的低合金钢，研究了Mo对生物矿化过程的影响。表面表征表明，中等浓度的Mo（如0.6 wt％）可显着增强生物膜的形成和矿化过程。从机理上讲，已证明Mo离子可作为解脂假单胞菌的化学引诱剂并激活趋化途径。

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来源
《Corrosion science》 |2019年第10期|108123.1-108123.10|共10页
作者
Guo Zhangwei; Wang Weiquan; Guo Na; Zeng Zhenshun; Liu Tao; Wang Xiaoxue;
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作者单位

Shanghai Maritime Univ Coll Ocean Sci & Engn Inst Marine Mat Sci & Engn Shanghai 201306 Peoples R China;

Chinese Acad Sci South China Sea Inst Oceanol RNAM Ctr Marine Microbiol Guangdong Key Lab Marine Mat Med Key Lab Trop Mar Guangzhou 510301 Guangdong Peoples R China|Univ Chinese Acad Sci Beijing 100049 Peoples R China|Guangzhou Univ Sch Environm Sci & Engn Guangzhou 510006 Guangdong Peoples R China;

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正文语种 eng
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关键词
Chemotaxis; Biofilm; Biomineralization; Anticorrosion; Pseudoalteromonas; Molybdenum;

机译：趋化性生物膜生物矿化;防腐;假单胞菌;钼;
入库时间 2022-08-18 04:46:01

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1. Molybdenum-mediated chemotaxis of Pseudoalteromonas lipolytica enhances biofilm-induced mineralization on low alloy steel surface [J] . Guo Zhangwei, Wang Weiquan, Guo Na, Corrosion science . 2019,第Octa期

机译：钼介导的解脂假单胞菌的趋化作用增强了低合金钢表面上生物膜诱导的矿化作用
2. Pseudoalteromonas lipolytica accelerated corrosion of low alloy steel by the endogenous electron mediator pyomelanin [J] . Liu Tao, Pan Shuai, Wang Yanan, Corrosion science . 2020,第Jana期

机译：内源电子介质吡喃丙氨酸解脂假单胞菌对低合金钢的腐蚀加速
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Molybdenum-mediated chemotaxis of Pseudoalteromonas lipolytica enhances biofilm-induced mineralization on low alloy steel surface

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