AI Article Synopsis
- This study focuses on sulfate-reducing bacteria (SRB) and their crucial role in transforming mercury (Hg), highlighting a lack of understanding of their full response mechanisms to Hg exposure.
- The research constructed the first comprehensive protein-protein interaction (PPI) network for SRB under Hg stimuli, revealing widespread proteomic changes including aspects of microbial metabolism, nucleic acid repair, and antibiotic resistance.
- Findings suggest that Hg not only affects the biotransformation processes of SRB but also enhances their metabolic activities, impacting the carbon, nitrogen, and sulfur cycles at a cellular level.
Article Abstract
Sulfate-reducing bacteria (SRB) play pivotal roles in the biotransformation of mercury (Hg). However, unrevealed global responses of SRB to Hg have restricted our understanding of details of Hg biotransformation processes. The absence of protein-protein interaction (PPI) network under Hg stimuli has been a bottleneck of proteomic analysis for molecular mechanisms of Hg transformation. This study constructed the first comprehensive PPI network of SRB in response to Hg, encompassing 67 connected nodes, 26 independent nodes, and 121 edges, covering 93% of differentially expressed proteins from both previous studies and this study. The network suggested that proteomic changes of SRB in response to Hg occurred globally, including microbial metabolism in diverse environments, carbon metabolism, nucleic acid metabolism and translation, nucleic acid repair, transport systems, nitrogen metabolism, and methyltransferase activity, partial of which could cover the known knowledge. Antibiotic resistance was the original response revealed by this network, providing insights into of Hg biotransformation mechanisms. This study firstly provided the foundational network for a comprehensive understanding of SRB's responses to Hg, convenient for exploration of potential targets for Hg biotransformation. Furthermore, the network indicated that Hg enhances the metabolic activities and modification pathways of SRB to maintain cellular activities, shedding light on the influences of Hg on the carbon, nitrogen, and sulfur cycles at the cellular level.
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| http://dx.doi.org/10.1016/j.envpol.2024.124048 | DOI Listing |
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