First air-tolerant effective stainless steel microbial anode obtained from a natural marine biofilm

Microbial anodes were constructed with stainless steel electrodes under constant polarisation. The seawater medium was inoculated with a natural biofilm scraped from harbour equipment. This procedure led to efficient microbial anodes providing up to 4 A/m² for 10 mM acetate oxidation at −0.1 V/SCE. The whole current was due to the presence of biofilm on the electrode surface, without any significant involvement of the abiotic oxidation of sulphide or soluble metabolites. Using a natural biofilm as inoculum ensured almost optimal performance of the biofilm anode as soon as it was set up; the procedure also proved able to form biofilms in fully aerated media, which provided up to 0.7 A/m². The current density was finally raised to 8.2 A per square meter projected surface area using a stainless steel grid. The inoculating procedure used here combined with the control of the potential revealed, for the first time, stainless steel as a very competitive material for forming bioanodes with natural microbial consortia.     

鞭毛介导的运动性与细菌生物膜的相互关系

摘要:由于运动缺陷型细菌形成生物膜的能力会下降,长期以来细菌的运动性都被认为与生物膜的形成呈正相关,但这一理论现在证明还有待商榷,而且运动性不是影响膜形成的绝对因素。本文详细介绍了细菌的生物膜和运动性,并重新定义了两者的相互关系。     

Media- and method-dependent variations in minimal inhibitory concentrations of antiplaque agents on oral bacteria

AIMS: To determine minimal inhibitory concentrations (MICs) and the percentage of nonsusceptible bacteria-- those still cultivable above a threshold concentration--in human supragingival dental plaque and saliva for antiplaque/antimicrobial agents including triclosan (TCS) and trichlorocarbanilide (TCC), and a new potential antimicrobial, 2-t-butyl-5-(4-t-butylphenyl)-phenol (DTBBP). METHODS AND RESULTS: Broth and agar dilution-based MIC tests were performed using 28 oral and nonoral bacterial strains representing 17 species. MICs for TCS were lowest and more than 100-fold lower than DTBBP (P < 0.0005) by both methods. MICs for TCS were lower in broth-based tests compared with TCC. The additions of defibrinated blood to agar and horse serum to broth increased MICs--in the case of TCS, 10- to 15-fold. Significantly higher proportions of nonsusceptible plaque and salivary bacteria were recovered from agar media containing DTBBP or TCC compared with TCS (P < 0.05). CONCLUSIONS: TCS is a more effective antimicrobial agent than either TCC or DTBBP as determined by in vitro testing. SIGNIFICANCE AND IMPACT OF THE STUDY: The utility of in vitro testing for antiplaque agents as a predictor of in vivo efficacy is affected by the methods used.     

铜绿假单胞菌生物被膜组成及其受群体感应系统和c-di-GMP调控的研究进展

作为人类条件性感染的前三大病原菌之一的铜绿假单胞菌,是一种革兰氏阴性细菌,对免疫功能低下和囊性纤维化患者可以造成严重和持续性感染。造成这种持续感染的原因主要是由于细菌接收外界信号后,在自身调控网络的协同作用下,会依附于固体表面,并产生胞外多糖、基质蛋白和胞外DNA等大分子物质形成高度结构化的膜状复合物将自身包裹形成生物被膜群体结构。生物被膜可以有效帮助细菌定殖、提高细菌对抗菌物质和宿主免疫反应的抵抗能力、促进群落细菌的细胞-细胞之间的信号交流等,是临床治疗中病原菌慢性感染和反复感染最重要的原因之一。本篇综述重点介绍了铜绿假单胞菌生物被膜的各组成成分及其在生物被膜形成中的重要功能,并进一步阐述了群体感应系统(las、rhl、pqs与iqs)和c-di-GMP对铜绿假单胞菌生物被膜形成的调控作用。通过本篇综述可以更清晰地了解细菌生物被膜形成和调控的过程,为开发新的治疗生物被膜感染策略提供帮助。     

鼠疫耶尔森氏菌环二鸟苷酸代谢及生物被膜形成调控研究进展

鼠疫耶尔森氏菌(Yersinia pestis,以下简称"鼠疫菌")是烈性传染病鼠疫的病原菌,以鼠蚤作为传播媒介。鼠疫菌在其传播媒介鼠蚤的前胃中形成生物被膜从而促进其在宿主间传播。鼠疫菌生物被膜的形成受第二信使分子环二鸟苷酸(c-di-GMP)的正向调控。鼠疫菌中c-di-GMP由二鸟苷酸环化酶(DGC)HmsT和HmsD合成,由磷酸二酯酶(PDE)HmsP降解。文中主要介绍影响鼠疫菌环二鸟苷酸代谢及生物被膜形成的调控因子,并对其作用机制进行讨论和总结。     

Effect of bulk liquid BOD concentration on activity and microbial community structure of a nitrifying,membrane-aerated biofilm

Membrane-aerated biofilms (MABs) are an effective means to achieve nitrification and denitrification of wastewater. In this research, microsensors, fluorescence in situ hybridization (FISH), and modeling were used to assess the impact of bulk liquid biological oxygen demand (BOD) concentrations on the activity and microbial community structure of nitrifying MABs. With 1 g m⁻³ BOD in the bulk liquid, the nitrification rate was 1.3 g N m⁻² day⁻¹, slightly lower than the 1.5 g N m⁻² day⁻¹ reported for no bulk liquid BOD. With bulk liquid BOD concentrations of 3 and 10 g m⁻³, the rates decreased to 1 and 0.4 g N m⁻² day⁻¹, respectively. The percent denitrification increased from 20% to 100% when the BOD increased from 1 to 10 g m⁻³ BOD. FISH results indicated increasing abundance of heterotrophs with increasing bulk liquid BOD, consistent with the increased denitrification rates. Modeling was used to assess the effect of BOD on nitrification rates and to compare an MAB to a conventional biofilm. The model-predicted nitrification rates were consistent with the experimental results. Also, nitrification in the MAB was much less sensitive to BOD inhibition than the conventional biofilm. The MAB achieved concurrent nitrification and denitrification, whereas little denitrification occurred in the conventional biofilm.     

Oxygen-depleted surfaces: a new antifouling technology

A novel, non-toxic strategy to combat marine biofouling is presented. The technology is paint with additions of up to 43% of industrial protein. Through microbial degradation of the protein component, an oxygen-depleted layer rapidly forms in a 0.2 mm layer close to the paint surface. With the present paint formulations, a stable, O₂-depleted layer can persist for 16 weeks. Barnacle larvae (cyprids) did not settle on panels where oxygen saturation was <20%, and cyprids were killed when exposed to O₂-free water for more than 1 h. It is also shown that the O₂-depleted layer will rapidly reform (within 15 min) after exposure to turbulent flow. Field exposure of panels for 16 weeks showed that paint with protein reduced fouling by barnacles and bryozoans by 80% and close to 100%, respectively. The results suggest that this novel technology may be developed into a non-toxic alternative to copper-based antifouling paints, especially for pleasure boats in sensitive environments. There is clearly potential for further development of the paint formulation, and a full-scale test on a boat-hull suggested that service-life under realistic operations needs to be improved.     

The Influence of Antimicrobial Peptides and Mucolytics on the Integrity of Biofilms Consisting of Bacteria and Yeasts as Affecting Voice Prosthetic Air Flow Resistances

The integrity of biofilms on voice prostheses used to rehabilitate speech in laryngectomized patients causes unwanted increases in airflow resistance, impeding speech. Biofilm integrity is ensured by extracellular polymeric substances (EPS). This study aimed to determine whether synthetic salivary peptides or mucolytics, including N-acetylcysteine and ascorbic acid, influence the integrity of voice prosthetic biofilms. Biofilms were grown on voice prostheses in an artificial throat model and exposed to synthetic salivary peptides, mucolytics and two different antiseptics (chlorhexidine and Triclosan). Synthetic salivary peptides did not reduce the air flow resistance of voice prostheses after biofilm formation. Although both chlorhexidine and Triclosan reduced microbial numbers on the prostheses, only the Triclosan-containing positive control reduced the air flow resistance. Unlike ascorbic acid, the mucolytic N-acetylcysteine removed most EPS from the biofilms and induced a decrease in air flow resistance.