Increased secretion of bacterial pyomelanin caused by light accelerates corrosion of low alloy steel

Zhangwei Guo; Qun Feng; Xiaomin Mao; Na Guo; Yansheng Yin; Tao Liu

doi:10.1016/j.chemosphere.2024.142353

Increased secretion of bacterial pyomelanin caused by light accelerates corrosion of low alloy steel

Chemosphere. 2024 Jul:359:142353. doi: 10.1016/j.chemosphere.2024.142353. Epub 2024 May 16.

Authors

Zhangwei Guo¹, Qun Feng¹, Xiaomin Mao¹, Na Guo¹, Yansheng Yin², Tao Liu³

Affiliations

¹ College of Ocean Science and Engineering, Shanghai Maritime University, Shanghai, 201306, China.
² Engineering Technology Research Center for Corrosion Control and Protection of Materials in Extreme Marine Environment, Guangzhou Maritime University, Guangzhou, 510725, China.
³ College of Ocean Science and Engineering, Shanghai Maritime University, Shanghai, 201306, China. Electronic address: liutao@shmtu.edu.cn.

PMID: 38761828
DOI: 10.1016/j.chemosphere.2024.142353

Abstract

Microorganisms in the waterline zone can secrete pigments to avoid damage caused by ultraviolet radiation, some of which have corrosive effects. In this work, we found that the secretion of pyomelanin by P3 strain of Pseudoalteromonas lipolytica significantly increases under strong lighting conditions, accelerating the corrosion of the material. Molecular mechanisms indicate that strong light, as a stressful environmental factor, enhances the expression of melanin secretion-related genes to prevent bacteria from being damaged by ultraviolet radiation. Therefore, this work proposes a new corrosion mechanism in the waterline zone, pigment-producing microorganisms are also involved in the waterline corrosion process.

Keywords: MIC; Molecular mechanisms; Pyomelanin; RNA-Seq; Waterline corrosion.

MeSH terms

Alloys* / chemistry
Corrosion
Light
Melanins* / metabolism
Pseudoalteromonas / metabolism
Steel* / chemistry
Ultraviolet Rays

Substances

Steel
Melanins
pyomelanin
Alloys