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。     

毛头鬼伞多糖CCP60a对TMV外壳蛋白的影响

对毛头鬼伞（Coprinus comatus Muell．ex Fr．）子实体中的多糖CCP60a进行了提取分离及检测,研究了不同温度条件下CCP60a对烟草花叶病毒（TMV）外壳蛋白体外聚合的影响,并用Western blotting法研究了CCP60a对TMV外壳蛋白表达的影响。结果表明,经沸水浸提、乙醇分级沉淀、DEAESephadex A-25离子交换柱层析、Sepharose-6B凝胶柱层析和抗TMV活性跟踪检测可得到均一的多糖CCP60a。随温度的提高,CCP60a处理组在320nm处的吸光度值增加幅度明显小于对照组,表明CCP60a对TMV外壳蛋白体外聚合有一定的抑制作用。Western blotting检测结果显示,CCP60a可以使TMV外壳蛋白的表达明显降低。     

TMV介导的外源蛋白在植物中表达

烟草花叶病毒(Tobaccomosaicvirus,TMV)为Tobamovirus代表成员,以此病毒介导的外源蛋白在植物中表达,经过了十几年的研究和不断完善,已被证实为一种有效的表达外源蛋白的途径.这项技术已经在医用活性多肽以及疫苗的研制、功能基因的鉴定、植物体内生物合成途径的研究等方面发挥越来越重要的作用.重点阐述了TMV基因组RNA的结构和分子生物学特征,并着重对重组载体的构建及其利用加以了论述.     

虾仁中副溶血弧菌灭活动力学模型的建立

[目的]建立醋酸、乳酸和柠檬酸对副溶血弧菌(Vibrio parahaemolyticus)在生理盐水和虾仁中的灭活动力学模型,指导有机酸应用于虾仁加工过程中的抑菌保鲜.[方法]测定副溶血弧菌在生理盐水和新鲜虾仁中经不同浓度有机酸溶液浸泡处理10min后的存活率P,虾仁中的细菌存活率与有机酸浓度呈良好的线性关系;生理盐水中的存活率通过In[ P/(1 -P)]转换成logit(P),与有机酸浓度之间的线性拟合度显著提高.通过拟合方程计算有机酸的50％和90％有效抑菌浓度(EC50和EC90),比较不同有机酸的抑菌能力以及在不同基质中的作用差异.[结果]副溶血弧菌在生理盐水中对有机酸较为敏感,在虾仁中的杀菌效果相对较差,虾仁中乳酸与柠檬酸的有效抑菌浓度(EC50或EC90)是生理盐水中浓度的160 - 200倍,醋酸的浓度比其在生理盐水中的浓度高出70倍以上,表明食品基质对有机酸的抑菌作用有显著影响,但采用的有机酸在虾仁中的EC90并未超过美国农业部规定的2.5％上限.以有机酸的总摩尔浓度比较,柠檬酸的抑菌能力最强,乳酸次之,醋酸最弱.[结论]抑菌剂效应呈非线性时,细菌存活率进行对数转换,可显著提高线性拟合度R2;食品基质对有机酸的抑菌作用有明显影响;应用浓度为2％的3种有机酸可以有效降低水产品中弧菌的污染量,提高产品的卫生质量.     

病毒灭活和SD血浆的制备

建立制备病毒灭活SD血浆的方法。血浆内加入 1%TNBP/ 1%TritonX10 0 ,30℃保温 4h后用反相层析和超滤去除血浆中的TNBP和TritonX10 0。在 30℃保温 15min后血浆内脂包膜病毒全部被杀灭。超滤后的血浆内TNBP和TritonX10 0的含量都低于 5mg/L。SD血浆蛋白含量的改变都在准许的范围内。建立了一种病毒灭活血浆的制备方法。     

不同温度条件下水稻种子活力QTL的定位分析

为了揭示基因型与环境温度之间的互作对种子活力的影响,利用1个粳籼交来源的重组自交系群体,采用纸卷法在15、20和25℃条件下进行发芽试验,考察了发芽率、芽长、根长及干重等4个种子活力相关性状。结合一张含有198个DNA标记的连锁图谱,用作图软件QTL Mapper1.0定位与种子活力相关的QTL。共检测到34个主效应QTL。这些QTL中的绝大多数(82％)成簇分布于第3、5和8号染色体的5个不同染色体区段上,分别被命名为QTL qSV-3-1、qSV-3-2、qSV-5、qSV-8-1和qSV-8-2。其中,QTL qSV-3-1、qSV-3-2和qSV-8-1对种子活力的效应大小和方向在3个温度条件下均较一致;而QTL qSV-5和qSV-8-2主要在20和25℃条件下起作用,在15℃低温条件下作用甚微或不起作用。表明种子活力QTL具有显著的基因型与环境温度之间的互作,而且这种互作具有明显的QTL特异性。芽长是唯一同时受5个与种子活力高度相关的染色体区段共同影响的指标,因此,相对而言,作为水稻种子活力的测定指标,芽长是最具有代表性的。     

与TMV-RNA装配起始位点互补的cDNA片段对TMV体外装配的抑制

合成了与TMV-RNA病毒装配起始位点互补的、长度为二十个核苷酸的DNA片段。该片段用~(32)P标记后,代替反义RNA(antisense RNA)与TMV-RNA进行硝基纤维素膜点杂交和溶液杂交。结果表明,该cDNA片段在两种条件下均能与TMV-RNA进行杂交。将溶液杂交的RNA-cDNA复合体经酒精沉淀,再与TMV衣壳蛋白的20S聚合体制剂进行体外装配,用测定310nm吸收光谱变化和电子显微镜观察的方法鉴定装配结果。实验证明,该cDNA片段与TMV-RNA杂交后抑制了装配起始位点的活力,从而使TMV病毒颗粒的装配不能完成。这一结果提示,TMV基因装配起始位点顺宁的cDNA和反义RNA能够在体外抑制TMV病毒颗粒的装配。     

柳树对水体氮素的去除率及其吸收动力学

在水培条件下,研究了2种柳树(Salix integra)无性系(“一支笔”和“微山湖”)对模拟富营养化水体中氮素的吸收状况,并采用常规耗竭法探讨了柳树幼苗根系对NH4+-N、NO3--N的吸收动力学特征.结果表明:2种柳树无性系对低浓度模拟富营养化水体中总氮的去除率均达90％以上,是高浓度情况下的2倍;对低浓度模拟污水中总磷的去除率达80％,高浓度下则达92％,且“一支笔”对总氮、总磷的吸收效果优于“微山湖”;2种柳树无性系对氮素的吸收均表现为水体中营养物质浓度越高,去除效果越好;只有NH4+-N或NO3--N存在时,“微山湖”的最大吸收速率和亲和力高于“一支笔”;当有其他氮源影响时,2种柳树无性系对NH4+-N和NO3--N的吸收效率则下降至50％;研究表明,柳树对富营养化水体的生态修复作用较强,是进行面源污染生态修复的优良树种.     

毛头鬼伞多糖对烟草酶活性和同工酶谱的影响

分析了毛头鬼伞(Coprinus comatus)真菌多糖诱导烟草对烟草花叶病毒(TMV)抗性过氧化物酶(POD)、多酚氧化酶(PPO)、苯丙氨酸解氨酶(PAL)、几丁质酶、-β1,3-葡聚糖酶活性的变化。结果表明,毛头鬼伞多糖可提高POD、PPO、PAL、几丁质酶和-β1,3-葡聚糖酶的活性,接种TMV后毛头鬼伞多糖处理的烟草酶活性显著高于不处理者。上述结果提示,毛头鬼伞多糖处理后烟草酶活性的增强可能与其诱导烟草获得抗性有关。     

用感染病毒细胞超微结构的差异区分RMV及TMV株系

通过透射电镜观察被长叶车前草花叶病毒(RMV)和烟草花叶病毒(TMV)不同株系感染的普通烟叶肉细胞的超微结构,发现两种病毒的粒子分布、内含体类型、被感染细胞超微结构的病变均存在差异.病毒粒子分布有成束、分散、环状、膜包被及角状成层或平行成层排列等类型,存在于细胞质及液泡中,但未见于细胞核、线粒体及叶绿体等细胞器中.内含体的X-小管形状有长杆状、短杆状及颗粒状,数量各异.细胞壁常引起增厚、结构松散及扭曲等变化.叶绿体聚集成堆或分布于细胞边缘,其数量、大小、形状及所含淀粉粒、嗜锇颗粒等存在差异,有些还有颗粒状物质积累.线粒体及内质网等在不同株系间也存在差异.本项研究表明,被感染细胞超微结构的差异可作为RMV和TMV株系区分的依据.     

TMV protein synthesis is not translationally regulated by heat shock

Summary Tobacco mosaic virus (TMV) protein synthesis in tobacco leaf tissue was not translationally regulated under conditions of heat shock as were most of the other proteins that were produced at 25°C. Upon shift from 25°C to 37–40°C, most host protein synthesis was inhibited followed by initiation of synthesis of heat shock proteins. In contrast, TMV protein synthesis continued after the temperature shift. This phenomenon allowed the enhancement of detection of TMV protein synthesis in tobacco leaves. The most prominent proteins labeled were viral when tissue was labeled during the first hr following the shift to 40°C, a period after heat shock repression of host protein synthesis, but before the onset of most heat shock protein synthesis. Another method to predominately label viral proteins was to incubate infected leaves for periods at 35°C which induced repression of preexisting host protein synthesis without inducing synthesis of heat shock proteins.     

Methylation of TMV RNA

Several plant and animal viral RNAs contain a tRNA like structure at their 3′ ends. In this communication we show that tobacco mosaic virus (TMV) RNA is an acceptable substrate for a specific tRNA methyltransferase. Using a crude preparation of $\text{E. coli}$ ribothymidine (rT) forming uracil methylase and (methyl ³H) S-adenosyl-L-methionine (SAM) as a methyl donor, 0.7 moles of methyl group is incorporated per mole of TMV RNA in 10 hours at 30°C. Upon T₂ RNAse digestion of the labeled RNA, all of the radioactivity was found to be in TMP. T₁ RNAse digestion of ³H methylated TMV RNA showed that all of the label was located in a tetranucleotide which co-migrated with authentic TpψpCpGp, an oligonucleotide characteristically found in normal cellular tRNA.The use of this specific methyl transferase reaction may provide a simple assay for the detection of tRNA like structures in large RNAs.     

一些抗植物病毒剂对烟草花叶病毒衣壳蛋白体外聚合过程的影响

一些抗植物病毒剂对烟草花叶病毒衣壳蛋白体外聚合过程的影响江山,郭雪柳,韩熹莱（北京农业大学基础科技学院,北京１０００９４）关键词抗植物病毒剂,烟草花叶病毒,病毒衣壳蛋白,体外聚合研究表明,有些植物病毒的核酸对寄主植物的侵染活性只有装配完整的病毒颗粒的...     

一种食用菌提取物y3对烟草花叶病毒的钝化作用及其机制

测定了从食用菌毛头鬼伞(Coprinus comatus)中提纯的y3蛋白对烟草花叶病毒(Tobacco mosaic virus,TMV)的钝化作用,结果表明y3对TMV有较强的体外钝化作用,在心叶烟枯斑寄主上对TMV的抑制中浓度约为2．0μg／mL;y3在pH9．0时较稳定;TMV与y3混合后刚RNase处理,测得侵染率为61．74％,比未用RNase处理的对照降低了38．26％,说明y3具有一定的体外脱衣壳作用;另外电镜观察发现y3可使部分TMV粒体发生裂解,变短。     

一种食用菌提取物y3对烟草花叶病毒的钝化作用及其机制

测定了从食用菌毛头鬼伞(Coprinus comatus)中提纯的y3蛋白对烟草花叶病毒(Tobacco mosaic virus,TMV)的钝化作用,结果表明y3对TMV有较强的体外钝化作用,在心叶烟枯斑寄主上对TMV的抑制中浓度约为2.0μg/mL;y3在pH9.0时较稳定;TMV与y3混合后用RNase处理,测得侵染率为61.74%,比未用RNase处理的对照降低了38.26%,说明y3具有一定的体外脱衣壳作用;另外电镜观察发现y3可使部分TMV粒体发生裂解,变短.     

Effect of chitosan on tobacco mosaic virus(TMV) accumulation,hydrolase activity,and morphological abnormalities of the viral particles in leaves of N. tabacum L. cv. Samsun

The effect of chitosan on the development of infection caused by Tobacco mosaic virus(TMV) in leaves of Nicotiana tabacum L. cv. Samsun has been studied. It was shown that the infectivity and viral coat protein content in leaves inoculated with a mixture of TMV(2 μg/mL) and chitosan(1 mg/mL) were lower in the early period of infection(3 days after inoculation), by 63% and 66% respectively, than in leaves inoculated with TMV only. Treatment of leaves with chitosan 24 h before inoculation with TMV also caused the antiviral effects, but these were less apparent than when the virus and polysaccharide were applied simultaneously. The inhibitory effects of the agent decreased as the infection progressed. Inoculation of leaves with TMV together with chitosan considerably enhanced the activity of hydrolases(proteases, RNases) in the leaves, in comparison with leaves inoculated with TMV alone. Electron microscope assays of phosphotungstic acid(PTA)-stained suspensions from infected tobacco leaves showed that, in addition to the normal TMV particles(18 nm in diameter, 300 nm long), these suspensions contained abnormal(swollen, "thin" and "short") virions. The highest number of abnormal virions was found in suspensions from leaves inoculated with a mixture of TMV and chitosan. Immuno-electron microscopy showed that "thin" virus particles, in contrast to the particles of normal diameter, lost the ability to bind to specific antiserum. It seems that the chitosan-induced activation of hydrolases stimulates the intracellular degradation of TMV particles and hence hydrolase activation may be considered to be one of the polysaccharide-mediated cellular defense mechanisms that limit virus accumulation in cells.