TMV在不同水体与温度条件下的灭活动力学

了解植物病毒在不同水体与温度条件下的灭活规律具有重要的理论与实际意义.本文以典型植物病毒烟草花叶病毒(TMV)为模型,比较了其在不同温度条件下,在闽江水、自来水、生活污水、微孔滤膜过滤除菌污水及超纯水中的灭活动力学.结果显示,温度是导致TMV灭活的重要因素,水温升高,病毒灭活速率加快;此外,某些水质因子也影响TMV的灭活效率,其中可溶性盐的存在及其含量对TMV的灭活会因所处的环境不同而异;某些微生物或代谢产物对植物病毒TMV具有灭活作用,而能生化降解的有机质加速TMV灭活可能是通过促进水体中的微生物增殖而起作用.     

水体病毒浓缩条件的优化

病毒浓缩条件的优化是水环境病毒污染监测及灭活去除效率评价的基础,本文开发了在待浓缩水样中预先加入钠化蒙脱石吸附病毒以增加其沉降性能,并在优化絮凝条件下用聚合氯化铝絮凝沉淀蒙脱石钠的水体病毒浓缩方法。该方法对人为污染的脊髓灰质炎病毒(Poliovirus 1,PV1)、烟草花叶病毒(Tobacco mosaic virus,TMV)、大肠杆菌噬菌体(Phage of Ecoli,E．cp)在闽汀水、生活污水、自来水中分别有高于84．3％的浓缩回收率,说明该浓缩方法具有较广泛的适用性和应用前景,可为水体病毒污染监测及灭活去除评价提供一个简便、回收率高、成本低的浓缩方法。     

水体病毒浓缩条件的优化

病毒浓缩条件的优化是水环境病毒污染监测及灭活去除效率评价的基础,本文开发了在待浓缩水样中预先加入钠化蒙脱石吸附病毒以增加其沉降性能,并在优化絮凝条件下用聚合氯化铝絮凝沉淀蒙脱石钠的水体病毒浓缩方法.该方法对人为污染的脊髓灰质炎病毒(Poliovirus 1, PV1)、烟草花叶病毒(Tobacco mosaic virus, TMV)、大肠杆菌噬菌体(Phage of Ecoli, E.cp)在闽江水、生活污水、自来水中分别有高于84.3%的浓缩回收率,说明该浓缩方法具有较广泛的适用性和应用前景,可为水体病毒污染监测及灭活去除评价提供一个简便、回收率高、成本低的浓缩方法.     

核糖体灭活蛋白在植物中的作用

植物核糖体灭活蛋白 (ribosome -inactivatingproteins ,RIPs)能够破坏真核或原核细胞的核糖体大亚基RNA ,使核糖体失活而不能与蛋白质合成过程中的延伸因子相结合 ,从而导致蛋白质合成受到抑制。不同的核糖体对不同RIPs的敏感性不同 ,RIPs对自体或异体核糖体的作用也有很大区别。RIPs对病毒有很强的抑制作用 ,并且有些RIPs表现出对某些真菌和昆虫的抗性 ,因此认为核糖体灭活蛋白在植物的防御反应中扮演重要角色。另外 ,RIPs还可能参与了细胞代谢、细胞死亡等生理调控过程。     

光化学法灭活血液中病毒的研究进展

光化学灭活法是指某些化学光敏剂与病原微生物的核酸或蛋白结合后,再以特定波长光照射,使光敏剂与核酸或蛋白之间发生光化学反应,以导致病原体失活的方法。研究认为,补骨脂素光化学法既可灭活细胞外的游离病毒,又可灭活细胞内的病毒,对包膜和无包膜病毒都有效。而部花青５４０、血卟啉和甲基蓝等光化学法主要对包膜病毒灭活效果较好。不同光化学灭活法对血液成分的影响程度有差异     

三峡库区水体中固氮微生物多样性及其影响因素

【目的】研究分析不同时空条件下三峡库区水体固氮微生物多样性,并探讨其与地球化学参数的相关性。【方法】采集三峡库区不同时间(三月份和六月份)和空间(干流与支流)的水体样品,对其进行地球化学参数分析,并通过构建克隆文库分析样品中固氮功能基因(nifH)的多样性进而探讨其与水体地化参数的相关关系。【结果】统计分析显示三峡库区水体固氮微生物α-多样性和群落组成具有时空差异。支流水体样品的固氮微生物α-多样性高于干流水体样品;六月水体样品的固氮微生物α-多样性高于三月水体样品。三峡库区三月水体样品中的固氮微生物群落以Proteobacteria (50.3%)和Firmicutes (40.0%)为主;六月水体样品的固氮微生物群落以Proteobacteria(48.4%)、Firmicutes(25.4%)和Cyanobacteria(19.0%)为主。Mantel检验结果显示:固氮微生物群落结构的差异与温度、pH和DIC等地球化学参数具有显著(P0.05)相关性,其中温度和pH的相关性系数最大。【结论】三峡库区固氮微生物的种群结构和多样性具有时空差异,影响三峡水库水体中固氮微生物群落结构与多样性的主要环境因素为温度和pH,同时浊度、DIC、氨氮也对库区水体固氮微生物群落结构和多样性有一定的影响。     

A型流感病毒持续感染细胞系来源的IVpi-189病毒生物学性状的初步研究

为明确E61-24-P15 A型重组流感病毒的第189代传代子病毒(IVpi-189)是否具备流感病毒温度敏感减毒活疫苗候选株的特点,将IVpi-189病毒感染MDCK细胞,并于不同培养温度条件下培养,观察其致细胞病变效应,病毒合成、释放情况,以及不同温度条件下病毒存活时间。结果显示32℃培养温度下,IVpi-189病毒具有等同于亲代野生病毒株的诱导细胞病变能力,而当培养温度上调至38℃,IVpi-189病毒致细胞病变效果出现缓慢且程度明显减轻。空斑形成单位实验发现IVpi-189病毒在38℃培养条件下增殖能力明显下降,其原因与病毒灭活速度及子病毒释放无关,但与感染细胞病毒合成能力下降有关。上述实验结果初步证实流感病毒持续感染细胞系来源的IVpi-189病毒具有温度敏感减毒活疫苗的生物学特性,在许可培养温度条件下具有良好的增殖能力,而在非许可培养温度下,病毒增殖活性受到明显抑制。本研究为流感病毒减毒活疫苗的开发研制提供实验佐证。     

水体中病毒浓缩方法及其条件优化

本研究探讨了在自来水和污水两种不同的水体环境中, 三氯化铝沉淀法和正电荷滤膜法浓缩回收病毒的效率, 并比较应用不同的浓缩条件、洗脱物质时的病毒回收率, 从而建立有效的环境样本中病毒的浓缩方法。结果表明, 三氯化铝沉淀法在两种水体中的回收率均较高, 最高回收率分别达到96.0%和92.0%, 但正电荷滤膜法在两种水体中的回收率差别较大。在自来水中, 正电荷滤膜法的最高回收率为93.9%, 在污水中的最高回收率仅为69.9%, 这说明正电荷滤膜法适用于病毒含量较高且悬浮物等杂质较少的样本。在应用于自来水样时, 两种方法均可起到有效的病毒浓缩作用, 但在悬浮物等杂质较多的污水中, 三氯化铝法具有较好的回收效率。     

镉离子污染条件下微生物群落中细菌与藻类的相互作用

【背景】水体微生物有着丰富的多样性,不同种类的微生物之间的相互作用对水体生态系统的组成结构与功能具有重要影响。水体内的藻类与某些微生物可以发生多种相互作用,然而人们对逆境条件下的菌藻有益相互作用尚缺乏深入研究。【目的】为了研究镉对水体微生物群落的影响以及镉胁迫下菌藻之间可能的相互作用。【方法】本研究运用了基于16S rRNA基因的高通量测序技术,分析在不同Cd~(2+)条件下微生物群落结构的变化,利用微生物相互作用网络分析菌藻之间可能发生的相互作用。【结果】通过分离培养筛选出了与集胞藻PCC6803互作抗Cd~(2+)的关键细菌Y9菌株。【结论】研究结果表明Y9菌株属于Phyllobacteriaceae科,与微生物群落组成和微生物互作网络的分析结果相符。本研究为探索水体环境中微生物种间相互作用、菌藻互作抗Cd~(2+)的生态效应提供参考依据。     

烟草NtWRKY40在植物应答病毒侵染过程中的作用

WRKY转录因子家族在植物的抗病、抗逆反应中具有重要功能。已有研究表明,烟草花叶病毒(TMV)的侵染显著地诱导烟草Nt WRKY的表达,有必要进一步探明该基因在植物应答病毒侵染过程中的作用。采用PCR的方法克隆获得Nt WRKY cDNA,生物信息学分析结果显示,该基因属于WRKYⅡa亚族成员,与绒毛状烟草NtoWRKY40高度同源,命名为NtWRKY40。以此建立了过表达该基因的转基因烟草,并以TMV为毒源进行了转基因烟草和野生烟草的侵染实验,以观察NtWRKY40在烟草应答病毒侵染过程中的作用。实验结果表明,野生烟草在TMV侵染后9 d,NtWRKY40的表达量显著升高,而NtWRKY40过表达转基因烟草在病毒侵染后,病毒相关基因的表达高于野生型对照,与染病程度成正相关,说明过表达NtWRKY40增加了植株对病毒的敏感性,该基因为负调控因子。此外,为探索应用人工miRNA的抗病毒技术,以烟草天然miR167前体为骨架、马铃薯Y病毒(PVY)外壳蛋白基因的一段反向互补序列为成熟序列,构建了amiR167-PVY植物表达载体并转化烟草,以抑制PVY。对amiRNA转基因植株进行抗病毒实验的结果显示,amiR167-PVY能够部分抑制病毒基因的表达,转基因植株具有一定的抗病毒能力。     

Effects of environmental variables and soil characteristics on virus survival in soil

Because of the increasing emphasis placed upon land application as a means of wastewater disposal, it is important to evaluate the influences of different factors upon virus survival in soil. The objective of this study was to measure the effects of various environmental variables on virus persistence. Test samples of soil were placed in vials, and the soil was wetted with suspensions of virus in either distilled water, unchlorinated secondary sewage effluent, or mixtures of effluent and water. The viruses used were coxsackieviruses A9 and B3, echovirus 1, poliovirus 2, rotavirus SA11, and bacteriophages T2 and MS2. The rate of virus inactivation was evaluated statistically with regard to conditions under which the vials were incubated and to the soil characteristics. The factors that were found to influence virus survival were temperature, soil moisture content, presence of aerobic microorganisms, degree of virus adsorption to the soil, soil levels of resin-extractable phosphorus, exchangeable aluminium, and soil pH. Overall, temperature and virus adsorption to soil appeared to be the most important factors affecting virus survival.     

Effects of environmental variables and soil characteristics on virus survival in soil.

Because of the increasing emphasis placed upon land application as a means of wastewater disposal, it is important to evaluate the influences of different factors upon virus survival in soil. The objective of this study was to measure the effects of various environmental variables on virus persistence. Test samples of soil were placed in vials, and the soil was wetted with suspensions of virus in either distilled water, unchlorinated secondary sewage effluent, or mixtures of effluent and water. The viruses used were coxsackieviruses A9 and B3, echovirus 1, poliovirus 2, rotavirus SA11, and bacteriophages T2 and MS2. The rate of virus inactivation was evaluated statistically with regard to conditions under which the vials were incubated and to the soil characteristics. The factors that were found to influence virus survival were temperature, soil moisture content, presence of aerobic microorganisms, degree of virus adsorption to the soil, soil levels of resin-extractable phosphorus, exchangeable aluminium, and soil pH. Overall, temperature and virus adsorption to soil appeared to be the most important factors affecting virus survival.     

Long-term survival of hepatitis A virus and poliovirus type 1 in mineral water.

The survival in mineral water of hepatitis A virus (HAV) and poliovirus type 1 was compared, under controlled experimental conditions, at 4 degrees C and room temperature. Viral infectivity titers were determined by cell culture titration, while HAV antigenicity was monitored by radioimmunoassay-endpoint titration. Both viruses persisted longest at 4 degrees C. At this temperature, after 1 year of exposure, the inactivation of either HAV or poliovirus type 1 was not important. At room temperature, poliovirus type 1 was not detected after 300 days, whereas HAV was still infectious. For both temperatures, the computed regression coefficients of best-fit lines for inactivation rates for the two viruses were significantly different. The survival of HAV was also studied at 4 degrees C and room temperature in mineral water with 5- and 50-micrograms/ml protein concentrations (i.e., purity of the virus suspension) for 120 days. As shown by a comparison of the regression coefficients for the inactivation rates, the stability of HAV in mineral water depends on protein concentration and temperature. Radioimmunoassay-endpoint titration results showed inactivation patterns similar to those of cell culture titration, with the most significant reduction in HAV antigenicity at room temperature. At the two temperatures, the infectivity of HAV declined at a faster rate than the antigenicity.     

Efficiency of Nitrous Acid as An Inactivating and Mutagenic Agent of Intact Tobacco Mosaic Virus and Its Isolated Nucleic Acid

When tobacco mosaic virus (TMV) and its isolated nucleic acid (TMV-RNA) were treated with nitrous acid, the nucleic acid was inactivated six times faster than the intact virus. Inactivation of both the infectious entities was exponential with treatment time to 0.1% level of survival. Eight different mutant phenotypes were scored after inactivation of TMV and TMV-RNA to 50, 10, 1.0, and 0.1% survival levels. Significantly more mutants in relation to unaltered isolates were induced at all levels of survival upon nitrous acid treatment of TMV than of TMV-RNA. Furthermore, the proportion of two specific mutant phenotypes was significantly greater in treated TMV than in treated TMV-RNA. No qualitative differences, however, were observed between the mutational spectra of nitrous acid-treated TMV and TMV-RNA. These results indicate that, in the intact virus, the viral capsid protects some of the sites involved in lethality; thus, proportionately more mutants are induced on nitrous acid treatment of TMV versus TMV-RNA.     

Inactivation of enterococci and fecal coliforms from sewage and meatworks effluents in seawater chambers.

Inactivation in sunlight of fecal coliforms (FC) and enterococci (Ent) from sewage and meatworks effluents was measured in 300-liter effluent-seawater mixtures (2% vol/vol) held in open-topped chambers. Dark inactivation rates (kDs) were measured (from log-linear survival curves) in enclosed chambers and 6-liter pots. The kD for FC was 2 to 4 times that for Ent, and inactivation was generally slower at lower temperatures. Sunlight inactivation was described in terms of shoulder size (n) and the slope (k) of the log-linear portion of the survival curve as a function of global solar insolation and UV-B fluence. The n values tended to be larger for Ent than for FC, and the k values for FC were around twice those for Ent in both effluent-seawater mixtures. The combined sunlight data showed a general inactivation rate (k) ranking in effluent-seawater mixtures of meatworks FC > sewage FC > meatworks Ent > sewage Ent. Describing 90% inactivation in terms of insolation (S90) gave far less seasonal variation than T90 (time-dependent) values. However, there were significant differences in inactivation rates between experiments, indicating the contribution to inactivation of factors other than insolation. Inactivation rates under different long-pass optical filters decreased with the increase in the spectral cutoff wavelength (lambda 50) of the filters and indicated little contribution by UV-B to total inactivation. Most inactivation appeared to be caused by two main regions of the solar spectrum--between 318 and 340 nm in the UV region and > 400 nm in the visible region.     

Viability ofSalmonella species in natural waters

The viability of different species ofSalmonella in seawater was studied under controlled laboratory conditions. The negative influence of water self-purifying factors exerted on the survival of the microorganisms varied depending on the factor considered and also on the specie selected. Biotic and luminous factors were mainly responsible for the inactivation and disappearance ofSalmonella in the water solutions. The addition of 1% of sewage to filtered seawater and freshwater provoked a decrease in the number ofSalmonella populations tested in comparison with the solutions without sewage. On the other hand, an increase of sublethally injuredSalmonella cells with respect to exposure time was not observed. From the results obtained from T₉₀ inactivation experiments, it may be deduced that the main factor implicated in the disappearance ofSalmonella from the water mass is physical dilution.     

Inactivation of poliovirus by chloramine-T

Since concern has recently been expressed about the presence of genotoxic substances due to chlorination of water and wastewater, chloramine-T (CAT) is proposed as an alternative disinfectant to chlorine. The viricidal properties of chlorine and CAT were compared. Kinetics of inactivation of poliovirus type 2 by chlorine and CAT in chlorine demand-free water were investigated by using a kinetic apparatus. Inactivation of the virus by chlorine and CAT occurred in two steps. The initial linear part of the inactivation curve followed a pseudo-first-order reaction with the virus. An obvious dose-response relationship was demonstrated with CAT. The rate of inactivation of the virus by CAT was faster in acid medium than in alkaline medium. Inactivation kinetic studies were performed at different temperatures, and the kinetic, Arrhenius, and thermodynamic parameters were evaluated. The rate of inactivation of poliovirus type 2 by chlorine was faster than that by CAT under identical conditions. A mechanism for the viral inactivation in acid conditions was proposed which led to a rate equation consistent with the experimental results. The results indicate that CAT may be an effective viricide against poliovirus type 2 in an acid medium.     

Inactivation of poliovirus by chloramine-T.

Since concern has recently been expressed about the presence of genotoxic substances due to chlorination of water and wastewater, chloramine-T (CAT) is proposed as an alternative disinfectant to chlorine. The viricidal properties of chlorine and CAT were compared. Kinetics of inactivation of poliovirus type 2 by chlorine and CAT in chlorine demand-free water were investigated by using a kinetic apparatus. Inactivation of the virus by chlorine and CAT occurred in two steps. The initial linear part of the inactivation curve followed a pseudo-first-order reaction with the virus. An obvious dose-response relationship was demonstrated with CAT. The rate of inactivation of the virus by CAT was faster in acid medium than in alkaline medium. Inactivation kinetic studies were performed at different temperatures, and the kinetic, Arrhenius, and thermodynamic parameters were evaluated. The rate of inactivation of poliovirus type 2 by chlorine was faster than that by CAT under identical conditions. A mechanism for the viral inactivation in acid conditions was proposed which led to a rate equation consistent with the experimental results. The results indicate that CAT may be an effective viricide against poliovirus type 2 in an acid medium.     

Effects of pH and temperature on the survival of coliphages MS2 and Qβ

The RNA F-specific coliphages, MS2 and Q, have been used as virus indicators in water and wastewater studies. It is therefore useful to have a good understanding concerning the effects of environmental factors on their survival in order to choose an appropriate candidate for assessing microbial safety in relation to water quality management. The effects of pH and temperature on the survival of these two coliphages were investigated. MS2 survived better in acidic conditions than in an alkaline environment. In contrast, Q had a better survival rate in alkaline conditions than in an acidic environment. The inactivation rates of both coliphages were lowest within the pH range 6–8 and the temperature range 5–35°C. The inactivation rates of both coliphages increased when the pH was decreased to below 6 or increased to above 8. The inactivation rates of both coliphages increased with increasing temperature. Q behaved peculiarly in extreme pH buffers, i.e. it was inactivated very rapidly initially when subjected to an extreme pH environment, although the inactivation rate subsequently decreased. In general, MS2 was a better indicator than Q. However, within the pH range 6–9 and at temperatures not above 25°C, either MS2 or Q could be used as a viral indicator.     

Effects of temperature, relative humidity, absolute humidity, and evaporation potential on survival of airborne Gumboro vaccine virus

Survival of airborne virus influences the extent of disease transmission via air. How environmental factors affect viral survival is not fully understood. We investigated the survival of a vaccine strain of Gumboro virus which was aerosolized at three temperatures (10°C, 20°C, and 30°C) and two relative humidities (RHs) (40% and 70%). The response of viral survival to four metrics (temperature, RH, absolute humidity [AH], and evaporation potential [EP]) was examined. The results show a biphasic viral survival at 10°C and 20°C, i.e., a rapid initial inactivation in a short period (2.3 min) during and after aerosolization, followed by a slow secondary inactivation during a 20-min period after aerosolization. The initial decays of aerosolized virus at 10°C (1.68 to 3.03 ln % min(-1)) and 20°C (3.05 to 3.62 ln % min(-1)) were significantly lower than those at 30°C (5.67 to 5.96 ln % min(-1)). The secondary decays at 10°C (0.03 to 0.09 ln % min(-1)) tended to be higher than those at 20°C (-0.01 to 0.01 ln % min(-1)). The initial viral survival responded to temperature and RH and potentially to EP; the secondary viral survival responded to temperature and potentially to RH. In both phases, survival of the virus was not significantly affected by AH. These findings suggest that long-distance transmission of airborne virus is more likely to occur at 20°C than at 10°C or 30°C and that current Gumboro vaccination by wet aerosolization in poultry industry is not very effective due to the fast initial decay.