芽孢杆菌属细菌对某些金属和广泛使用的石油基塑料生物损伤/生物降解的影响

N. Tkachuk, L. Zelena
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引用次数: 7

摘要

本文讨论了芽孢杆菌属细菌作为生物破坏/生物降解剂和生物防治剂。本文论述了上述细菌形成生物膜和腐蚀性、抗微生物和抗生物膜活性化合物的能力,主要是铁载体。它们的作用取决于菌种、微生物菌株、抗菌物质的产生、生物膜的形成和受损物质的类型。被分析的细菌显示出既能引起生物损伤又能抑制生物损伤的能力。芽孢杆菌属细菌参与微生物影响的腐蚀过程是由腐蚀代谢物的产生和某些生物电化学机制的影响决定的。枯草芽孢杆菌产生的脂肽(surfactin、iturin和fengycin)能够改变表面的疏水性并影响微生物对表面的粘附。由velezensis芽孢杆菌产生的铁载体bacillibactin在高浓度时能够抑制细菌生物膜的形成,从而减缓物质的降解。进一步研究铁载体作为微生物影响腐蚀的绿色抑制剂可能是有前途的,因为所述化合物具有抗生物膜形成特性和高强度的抑制能力。
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The Impact of Bacteria of the Genus Bacillus upon the Biodamage/Biodegradation of Some Metals and Extensively Used Petroleum-Based Plastics
This paper tackles bacteria of the genus Bacillus as both biodamaging/biodegrading and biocontrolling agents. The article addresses the said bacteria’s ability to form biofilms and corrosive, antimicrobial and antibiofilm proactive compounds, primarily, siderophores. Their role depends on the species, microorganism strain, production of antimicrobial substances, biofilm formation, and the type of damaged material. The bacteria under analysis have demonstrated the ability to cause as well as inhibit biodamage. The involvement of bacteria of the genus Bacillus in microbiologically influenced corrosion processes is determined by the production of corrosive metabolites and the impact of certain bioelectrochemical mechanisms. Lipopeptides generated by Bacillus subtilis (surfactin, iturin and fengycin) are capable of modifying surfaces’ hydrophobic properties and impacting the microbes’ adhesion to surfaces. Produced by Bacillus velezensis, the siderophore bacillibactin at a high concentration is capable of inhibiting the formation of bacterial biofilms, thus slowing down the degradation of materials. Further study of siderophores as green inhibitors of microbiologically influenced corrosion may be promising as the said compounds possess antibiofilm-forming properties and high-intensity inhibitory capabilities.
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