产油微生物利用餐厨垃圾生产油脂的研究进展

餐厨垃圾中含有丰富的营养物质,经生物转化过程可以合成对人类有用的化学品.某些产油微生物可以处理餐厨垃圾生产油脂,同时合成高附加值代谢产物如多不饱和脂肪酸、角鲨烯和类胡萝卜素等.这不仅能够降低生产成本,而且提高了产物的经济价值,具有极大的工业化应用潜力.文中主要概括了目前餐厨垃圾的处理研究现状,综述了产油微生物发酵餐厨垃...     

细菌生物被膜与食品生物危害

食源性病原菌生物被膜是威胁食品安全的一个重大隐患。生物被膜一旦在食品加工过程中形成,易引起相当严重的交叉污染和加工后污染,产生极大危害,从而导致一系列严重的健康问题。本文就食源性病原菌生物被膜的分布、形成机制以及防治措施进行了综述。     

Inhibitory effects of food additives derived from polyphenols on staphylococcal enterotoxin A production and biofilm formation by Staphylococcus aureus

In this study, we examined the inhibitory effects of 14 food additives derived from polyphenol samples on staphylococcal enterotoxin A (SEA) production and biofilm formation by Staphylococcus aureus. Tannic acid AL (TA), Purephenon 50 W (PP) and Polyphenon 70A (POP) at 0.25 mg/mL and Gravinol®-N (GN), Blackcurrant polyphenol AC10 (BP), and Resveratrol-P5 (RT) at 1.0 mg/mL significantly decreased SEA production by S. aureus C-29 (p < 0.05). TA, GN, BP, and RT significantly inhibited the expression of the sea gene in S. aureus C-29 (p < 0.05), while suppression attempts by PP and POP proved unsuccessful. After result analysis, it can be derived that TA, GN, BP, and RT inhibit the production of SEA. Of the six samples, each one significantly inhibited biofilm formation (p < 0.05). Food additives derived from polyphenols have viability to be used as a means to inhibit the enterotoxin production and control the biofilm formation of foodborne pathogens.     

Prevention of biofilm formation by polymer modification

Bacterial biofilm formation on synthetic polymers plays an important role in industry and in modern medicine, leading, for example, to difficult-to-treat infections caused by colonized foreign bodies. Prevention of biofilm formation is a necessary step in the successful prophylaxis of such infections. One approach is to inhibit bacterial adherence by polymer surface modification. We have investigated polymer modification by glow discharge treatment in order to study the influence of the modified surface on bacterial adherence. Surface roughness, surface charge density and contact angles of the modified polymers were determined and related to the adherence ofStaphylococcus epidermidis KH6. Although no influence of surface roughness and charge density on bacterial adherence was noticed, a correlation between the free enthalpy of adhesion (estimated from contact angle measurements) and adherence was observed. There seems to exist a certain minimum bacterial adherence, independent of the nature of the polymer surface. Modified polymers with negative surface charge allow for bacterial adherence close to the adherence minimum. These polymers could be improved further by the ionic bonding of silver ions to the surface. Such antimicrobial polymers are able to prevent bacterial colonization, which is a prerequisite for biofilm formation. It is suggested that modification of polymers and subsequent surface coupling of antimicrobials might be an effective approach for the prevention of bacterial biofilm formation.     

Biofilm formation and the food industry,a focus on the bacterial outer surface

The ability of many bacteria to adhere to surfaces and to form biofilms has major implications in a variety of industries including the food industry, where biofilms create a persistent source of contamination. The formation of a biofilm is determined not only by the nature of the attachment surface, but also by the characteristics of the bacterial cell and by environmental factors. This review focuses on the features of the bacterial cell surface such as flagella, surface appendages and polysaccharides that play a role in this process, in particular for bacteria linked to food‐processing environments. In addition, some aspects of the attachment surface, biofilm control and eradication will be highlighted.     

膜生物膜法在水污染控制及资源回收中的研究进展

传统以达标排放为核心目标的废水处理工艺往往以高能耗、高物耗换取污染物削减,形成了"减排污染物、增排温室气体"的尴尬局面,并不符合可持续发展理念。作为一种新型的膜处理技术,膜生物膜法可利用无泡曝气的方式将气态电子供体(甲烷、氢气)或受体(氧气)提供给附着在膜表面的微生物,从而驱动水体中的污染物去除,并产生一些极具回收潜力的物质,最终实现污染物削减、节能减排及资源回收三大目标的有机整合。本文系统介绍了膜生物膜的传质过程及其去除污染物的微观机制,探讨了膜生物膜法在水处理资源回收方面的研究前景,梳理了膜生物膜反应器在水污染控制方面的实验研究和中试应用现状,并总结了膜生物膜法面临的挑战及发展趋势。     

Effect of ovotransferrin, protamine sulfate and EDTA combination on biofilm formation by catheter-associated bacteria

AIMS: To determine the effect of a composition comprising ovotransferrin (OT), protamine sulfate (PS) and ethylenediaminetetraacetic acid (EDTA) on biofilm formation by catheter-associated bacteria. METHODS AND RESULTS: The in vitro activity of OT, PS and EDTA alone and in combinations against biofilm formation by Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa, Proteus mirabilis, Enterococcus faecalis and Staphylococcus epidermidis was investigated. All the three compounds either alone or in combinations failed to inhibit the growth completely at the concentrations tested. However, the subinhibitory concentrations of three compounds in a composition showed synergistic inhibitory effect on biofilm formation by K. pneumoniae, Ps. aeruginosa and S. epidermidis. Furthermore, 79-95% reduction in Ps. aeruginosa and S. epidermidis biofilm formation was observed in a clear vinyl urinary catheter treated with the composition. CONCLUSION: The subinhibitory concentrations of OT, PS and EDTA in a composition were effective in reducing biofilm formation by catheter-associated bacteria. SIGNIFICANCE AND IMPACT OF THE STUDY: This study shows that a synergistic composition-comprising non-antibiotic generally regarded as safe (GRAS) compounds such as OT, PS and EDTA may be used in the prevention of catheter-related infections.     

阿萨希毛孢子菌的溶血活性及生物膜形成能力与其基因型关系研究

目的 分析临床分离自尿路感染患者的阿萨希毛孢子菌的体外溶血活性及生物膜形成能力与其基因型的关系,为临床诊治提供依据.方法 玻璃珠法提取总DNA,并采用PCR技术利用IGS1区特异性引物确定其基因型别;同时,平板法和XTT还原比色法分别检测阿萨希毛孢子菌的溶血活性及生物膜形成能力,并分析其与基因型的关系.结果 10株分离自尿路感染的阿萨希毛孢子菌基因型分别属于Ⅰ、Ⅲ、Ⅳ,其中以Ⅳ型为主;所分离菌株均具有不同程度的溶血活性;除1例分离株外,其余各分离株均具有在聚苯乙烯表面形成生物膜的能力;基因型Ⅲ型菌株具有较强的溶血活性和生物膜形成能力.结论 分离自尿路感染患者的10株阿萨希毛孢子菌以Ⅳ型为主,而其中Ⅲ型菌株表现出较强的溶血活性和生物膜形成能力.     

Effects of phenol and natural phenolic compounds on biofilm formation by Pseudomonas aeruginosa

A biofilm is formed as a result of adhesion of microorganisms to various surfaces with the production of extracellular polymers (polysaccharides and proteins). Biofilms cause serious problems in the chemical, medical and pharmaceutical industries. Recent findings indicate that some natural phenolic compounds found in plants have an anti-biofouling effect on biofilm formation by Gram-negative bacteria. The anti-biofouling activities of 14 selected phenol and natural phenolic compounds were tested against Pseudomonas aeruginosa, using a microtiter-plate. A modified microtiter-plate assay was used because it enabled indirect measurement of bacterial cells attached to the surface of the wells. This assay involved fixing the bacterial film with methanol, staining with crystal violet dye and then releasing the bound dye with 33% glacial acetic acid. The optical density (OD) of the solution was measured at 570 nm by using an automated ICN Flow Titertek Multiscan Plus reader. Phenol and natural phenolic compounds except ethyl linoleate and tocopherol showed a significant reduction in biofilm formation by P. aeruginosa.     

环境因子对水霉菌生物膜形成的影响

【目的】体外构建水霉菌(Saprolegnia)生物膜(Biofilm,BF),研究环境因子对其生物膜形成的影响。【方法】采用改良的微孔板法研究静置培养条件下寄生水霉(Saprolegnia parasitica)ATCC200013在96孔酶标板上的成膜情况,CCK-8法(Cell Counting Kit-8)定量检测生物膜中水霉菌的活力。【结果】水霉菌的生物膜的OD450值在培养24 h达到峰值,48 h后趋于稳定。随着初始孢子浓度升高,水霉菌生物膜OD450值升高,差异显著(P0.05)。20-25°C生物膜形成量最多,OD450值显著高于其他温度组(P0.05)。在起始pH值为4-11的沙氏葡萄糖液体培养基中,水霉菌均能形成生物膜。在培养基中加入0.12 mmol/L以上CaCl2,能促进生物膜形成;添加0.03-2.00 mmol/L MgCl2,水霉菌生物膜形成量与未添加MgCl2对照组无显著性差异;Cu2+对水霉菌生物膜的形成有显著影响,0.5 mmol/L以上添加处理几乎不形成生物膜;NaCl能明显抑制水霉菌生物膜的形成,当NaCl质量分数低于0.12%时,对生物膜形成的影响较小(P0.05)。水霉菌在鲫皮和肌肉提取液包被后生物膜形成量与对照组相比无显著性差异,而鲫表皮黏液、鳃黏液包被后生物膜的形成量明显减少。【结论】研究首次采用微孔板法体外构建水霉菌生物膜,发现其生物膜的形成与多种环境因素有着密切的关系。这为了解水霉菌生物膜的形成规律提供了一定参考,为水霉菌生物膜的进一步研究奠定了基础。     

Inhibitory effects of 7-epiclusianone on glucan synthesis, acidogenicity and biofilm formation by Streptococcus mutans

The aim of this study was to examine the effects of 7-epiclusianone, a new prenylated benzophenone isolated from the plant Rheedia gardneriana, on some of the virulence properties of Streptococcus mutans associated with biofilm development and acidogenicity. The synthesis of glucans by glucosyltransferases B (GTF B) and C (GTF C) was markedly reduced by 7-epiclusianone showing more than 80% inhibition of enzymatic activity at a concentration of 100 microg mL(-1). Double-reciprocal analysis (Lineweaver-Burk plots) revealed that the inhibition of GTF B activity was noncompetitive (mixed) while GTF C was inhibited uncompetitively. The glycolytic pH drop by S. mutans cells was also disrupted by 7-epiclusianone without affecting the bacterial viability, an effect that can be attributed, in part, to inhibition of F-ATPase activity (61.1+/-3.0% inhibition at 100 microg mL(-1)). Furthermore, topical applications (1-min exposure, twice daily) of 7-epiclusianone (at 250 microg mL(-1)) disrupted biofilm formation and physiology. The biomass (dry-weight), extracellular insoluble polysaccharide concentration and acidogenicity of the biofilms were significantly reduced by the test agent (P<0.05). The data show that 7-epiclusianone disrupts the extracellular and intracellular sugar metabolism of S. mutans, and holds promise as a novel, naturally occurring compound to prevent biofilm-related oral diseases.     

群体感应对铜绿假单胞菌生物被膜形成的调控

生物被膜是一种与浮游细胞相对应的生长方式,由细菌和自身分泌的包外基质组成。铜绿假单胞菌是研究这一生长方式的模式生物。在过去十年,对铜绿假单胞菌生物被膜的研究已取得显著进展。群体感应(QS)的细胞沟通机制在铜绿假单胞菌生物被膜形成中发挥着重要作用。介绍生物被膜的特点,并重点讨论了QS和生物被膜之间的关系。     

Surface properties,adhesion and biofilm formation on different surfaces by Scedosporium spp. and Lomentospora prolificans

Abstract

In the present work, some surface properties of the fungi Scedosporium apiospermum, S. aurantiacum, S. minutisporum, and Lomentospora prolificans and their capability to adhere to and form a biofilm on diverse surfaces were evaluated. All four species had high conidial surface hydrophobicity and elevated electronegative zeta potentials. Abundant quantities of melanin were detected at the conidial surface, whereas sialic acid was absent. The numbers of non-germinated and germinated conidia adhered to poly-L-lysine-covered slides was higher than on glass after 4?h of fungi–surface contact. Additionally, after 72?h of interaction a typical biofilm structure had formed. Mature biofilms were also observed after 72?h on a nasogastric catheter (made from polyvinyl chloride), a late bladder catheter (siliconized latex), and a nasoenteric catheter (polyurethane). Interestingly, biofilm biomass increased considerably when the catheters had previously been incubated with serum. These results confirm that Scedosporium/Lomentospora spp. are capable of forming biofilms on diverse abiotic surfaces.     

Variability in biofilm formation correlates with hydrophobicity and quorum sensing among Vibrio parahaemolyticus isolates from food contact surfaces and the distribution of the genes involved in biofilm formation

Vibrio parahaemolyticus is one of the leading foodborne pathogens causing seafood contamination. Here, 22 V. parahaemolyticus strains were analyzed for biofilm formation to determine whether there is a correlation between biofilm formation and quorum sensing (QS), swimming motility, or hydrophobicity. The results indicate that the biofilm formation ability of V. parahaemolyticus is positively correlated with cell surface hydrophobicity, autoinducer (AI-2) production, and protease activity. Field emission scanning electron microscopy (FESEM) showed that strong-biofilm-forming strains established thick 3-D structures, whereas poor-biofilm-forming strains produced thin inconsistent biofilms. In addition, the distribution of the genes encoding pandemic clone factors, type VI secretion systems (T6SS), biofilm functions, and the type I pilus in the V. parahaemolyticus seafood isolates were examined. Biofilm-associated genes were present in almost all the strains, irrespective of other phenotypes. These results indicate that biofilm formation on/in seafood may constitute a major factor in the dissemination of V. parahaemolyticus and the ensuing diseases.     

Interaction of Escherichia coli and its culture supernatant with Vibrio vulnificus during biofilm formation

Vibrio vulnificus is a foodborne pathogen causing septicemia with high mortality rate. In this study, we explored how Escherichia coli, one of the commensal bacteria in the human gastrointestinal tract, can interact with V. vulnificus. Our study results show that the amount of biofilm produced by V. vulnificus was reduced in the presence of E. coli ATCC 35218, although the growth of V. vulnificus L-180 remained unaffected. We also detected an antibiofilm effect of E. coli culture supernatant against V. vulnificus, which could not be reduced even after heat treatment. These findings indicate that E. coli and its culture supernatant may be suitable to prevent biofilm formation by V. vulnificus. By contrast, live cells of V. vulnificus could reduce the amount of preformed E. coli biofilm, but its culture supernatant could not. This suggests that the cell-associated factors contribute toward reduction in E. coli biofilm. Therefore, we speculate that ingestion of an infectious dose of V. vulnificus might induce dislodging of the commensal bacteria from the intestinal epithelia and thus can colonize to initiate the infection.     

The role of fructans on dental biofilm formation by Streptococcus sobrinus, Streptococcus mutans, Streptococcus gordonii and Actinomyces viscosus

Dental plaque biofilm plays a pivotal role in the progression of dental diseases. Polysaccharides are of great importance in the ecology of the dental biofilm. We studied the effect of fructans, glucans and a mixture of both fructans and glucans, synthesized in situ by immobilized fructosyltransferase or glucosyltransferase, on the adhesion of Streptococcus sobrinus, Streptococcus mutans, Streptococcus gordonii and Actinomyces viscosus to hydroxyapatite beads coated with human saliva (sHA). The adhesion of A. viscosus to sHA was found to be fructan-dependent. Adhesion of both S. sobrinus and S. mutans was found to be mediated mainly by glucans, while the adhesion of S. gordonii was found to be both glucan- and fructan-dependent. Treatment with fructanase prior to A. viscosus adhesion resulted in a significant reduction in adhesion to sHA, while adhesion of S. sobrinus, S. mutans and S. gordonii was slightly influenced by fructanase treatment. Treatment with fructanase after adhesion of S. gordonii to sHA resulted in a significant reduction in their adhesion to sHA. Our results show that fructans may play a role in the adhesion and colonization of several cariogenic bacteria to sHA, thus contributing to the formation of dental plaque biofilm.