Fitness costs of an immune response in the house martin (<Emphasis Type="Italic">Delichon urbica</Emphasis>)

Immune responses constitute a major way for hosts to defend themselves against parasites. Because hosts do not habitually produce strong responses all the time, immune responses might be costly to produce or maintain. We tested experimentally if the production of a response to a challenge with a novel antigen resulted in a cost in terms of fitness using the highly colonial house martin Delichon urbica as a model system. We injected adult breeding birds during laying of the first clutch with either Newcastle disease virus (NDV) or a control injection, and the clutch was subsequently removed to induce relaying. NDV stimulates the non-specific immune system, causing production of antibodies during a period of more than 2 weeks. Accordingly, we found an increase in leukocyte counts in experimental birds compared to controls. Experimental treatment reduced the frequency of re-laying, caused a delay in timing of relaying and a reduction in brood size. Quality of nestlings in terms of body size, body mass and T-cell-mediated immune response did not differ significantly between treatments. Overall, seasonal reproductive success differed significantly between treatments, showing that the production of an immune response by adult birds is costly in terms of future fecundity.     

腾冲热海高温酸性热泉类病毒颗粒的多样性

为了解云南腾冲热海高温酸性热泉中类病毒颗粒的多样性及特征,采用电子显微镜、双层平板及DNA限制性酶切分析等方法,从腾冲热海61~94℃酸性热泉富集液中分离纯化病毒颗粒,对病毒形态特征进行分析比较.结果显示:腾冲热海不同酸性热泉样品富集培养物中病毒DNA的限制性酶切图谱差异明显;病毒液中共观察到4种不同类型的病毒状颗粒,依据其形态特征,大致可以分为头尾型病毒、丝状病毒、球状病毒、纺锤型病毒;这些病毒形态与分离自美国、日本、冰岛等地的高温酸性热泉病毒形态基本相似,多数类似于硫化叶菌已发现的病毒,可见腾冲热海高温酸性热泉中类病毒颗粒具有一定的多样性.同时分离获得一株硫化叶菌病毒,呈纺锤形,一端有尾,纺锤形头部的大小为220 nm×80 nm,尾部的长度变化很大,从20~100 nm不等,平均长度为50 nm左右,病毒有囊膜,囊膜的厚度约为10~15 nm,该病毒的形态特征、形成抑菌斑的大小及宿主菌株的特性与分离自腾冲热海的第一株硫化叶菌病毒STSV1差异显著,可能为一株新的硫化叶菌病毒,故命名为STSV2(Sulfolobus tengchongensis spindle-shaped virus 2).     

Evaluation of the relationship of picoplankton and viruses to environmental variables in a lagoon system (Çakalburnu Lagoon,Turkey)

Lagoons are defined as wetlands separated from the sea coasts on which they are located and sit between continental and marine aquatic ecosystems. Çakalburnu Lagoon is a coastal wetland on the southern side of the Bay of ?zmir. Microorganisms, which are quite sensitive to changes occurring in environmental factors, are commonly used to determine the impact of environmental effects on the functioning of the ecosystem. In this study, variations in the abundance and biomass of picoplankton (Synechococcus spp. and bacteria) and the abundance of viruses, which identify the ecological productivity of the food chain, were seasonally examined by epifluorescence microscopy. Moreover, the microbial abundance and biomass relation over time between the physical and chemical parameters was evaluated. According to our results, the maximum abundance of Synechococcus spp. and viruses was 6.7?×?10⁴ cell/ml and 9.9?×?10⁸?cell/ml in the summer, respectively. Otherwise, the highest level of bacteria was measured at 3.6?×?10⁷ cell/ml in the spring. Based on the principal component analysis and Pearson correlation analysis results, we concluded that total suspended solids, Chl-a, particulate organic carbon and particulate organic nitrogen were the major parameters influencing the observed variability of the lagoon system. Overall, to protect and improve the ecological and microbiological quality of aquatic systems such as lagoons, the necessary monitoring and measurement studies should be conducted in these sensitive areas.     

The interaction of heat shock proteins and some components of plant viruses北大核心CSCD

Considerable research has indicated that heat shock proteins (Hsp), as molecular chaperones, carry out many biological activities of plant viruses by folding, transporting, translocating, assembling, or degrading client proteins. It is fundamental to develop resistant plant varieties and novel anti-viral agents by determining the interaction mechanisms between plant viruses and hosts. In this study, we first reviewed the classification, gene and protein structure, and biological significances. We then analyzed the assembling mechanism of Hsp70 or Hsp90, plant host cofactors, and RNA-dependent RNA polymerases in a viral replicase complex, and the mechanism of interaction and subcellular localization between Hsp70 and some plant virus components. We highlighted the mechanism of interaction and movement between Hsp70 and some plant virus components and the effect of Hsp expression of plant hosts or viruses. The results indicated where the mechanism occurred, the participating factors, energy supply, and material conversion between Hsps and the plant virus components for the course of the intracellular movement, local movement between cells, and long-distance movement, and showed the Hsp type specificity and the law of dynamic Hsp expression in plant hosts infected by viruses. The studies mainly focused on the two Hsp factors and the plant viral components, indicating limited coordination mechanisms among many nucleic acids, proteins, and polysaccharides in macromolecular protein complexes (MRC). Future research should analyze the translocation mechanism between client proteins and Hsps, the coordination mechanism between Hsps and MRC components, and the relation between MRC and the plant tissue structure. © 2018 Science Press. All rights reserved.     

MICROBIOLOGICAL QUALITY OF PUGET SOUND BASIN STREAMS AND IDENTIFICATION OF CONTAMINANT SOURCES1

ABSTRACT: Fecal coliforms, Escherichia coli, enterococci, and somatic coliphages were detected in samples from 31 sites on streams draining urban and agricultural regions of the Puget Sound Basin Lowlands. Densities of bacteria in 48 and 71 percent of the samples exceeded U.S. Environmental Protection Agency's freshwater recreation criteria for Escherichia coli and enterococci, respectively, and 81 percent exceeded Washington State fecal coliform standards. Male‐specific coliphages were detected in samples from 15 sites. Male‐specific F⁺RNA coliphages isolated from samples taken at South Fork Thornton and Longfellow Creeks were serotyped as Group II, implicating humans as potential contaminant sources. These two sites are located in residential, urban areas. F⁺RNA coliphages in samples from 10 other sites, mostly in agricultural or rural areas, were serotyped as Group I, implicating non‐human animals as likely sources. Chemicals common to wastewater, including fecal sterols, were detected in samples from several urban streams, and also implicate humans, at least in part, as possible sources of fecal bacteria and viruses to the streams.     

黄地老虎NPV增效作用的研究

对黄地老虎核型多角体病毒（ＡｓＮＰＶ）的多角体蛋白和病毒粒子组分进行分离纯化,分别与棉铃虫核型多角体病毒（ＨａＮＰＶ）混合感染三龄棉铃虫幼虫,发现此二种组分均能够提高棉铃虫幼虫的死亡率,缩短半致死时间,降低半致死浓度。使用酶联免疫吸附测定（ＥＬＩＳＡ）技术检验ＡｓＮＰＶ多角体蛋白和病毒粒子与粘虫颗粒体病毒增效因子（ＰｓＧＶ－ＳＦ）和ＨａＮＰＶ多角体蛋白的同源性,发现ＡｓＮＰＶ多角体蛋白和病毒粒子与     

大玉竹低聚糖硫酸酯抗HSV-2病毒活性的研究

从传统中药大玉竹中提取低聚糖Ｐｏｏｓ,用吡啶－氯磺酸法制备了它的硫酸酯衍生物Ｓ－Ｐｏｏｓ,产物经红外鉴定,证实Ｐｏｏｓ硫酸酯化后羟基连上硫酸基,硫含量为８．４７％,取代度（Ｄｓ）为０．６体外实验研究了Ｐｏｏｓ、Ｓ－Ｐｏｏｓ对非洲绿猴肾细胞（Ｖｅｒｏ）的细胞毒怀和抗单纯疱疹病毒２型（ＨＳＶ－２）活性。结果表明,Ｐｏｏｓ和Ｓ－Ｐｏｏｓ都无细胞毒性。Ｐｏｏｓ本身无抗病毒活性,对ＨＳＶ－２引起的细胞病变和     

病毒在无生命物体表面存活时间及其影响因素分析

2020年3月11日,世界卫生组织宣布新型冠状病毒肺炎（COVID-19,简称“新冠肺炎”）疫情全球大流行.病毒性传染病在人群中的发生需具备3个相互关联的条件,即传染源、传播途径和易感人群,其中传播途径是一个关键环节.从环境传播的角度,综述了包括SARS（重症急性呼吸综合征）病毒、MERS（中东呼吸综合征）病毒等病毒在无生命物体表面的存活时间及影响因素.结果表明:包括冠状病毒在内的一些具有传染性的病毒能在多种无生命物体表面存活一定时间,进而可能通过物体表面进行环境传播,造成潜在的健康风险;物体材质、温度、湿度以及病毒载量等因素是影响病毒在无生命物体表面存活的主要因素.在上述分析的基础上,对医疗废物和生活垃圾的收集、运输、处理等过程提出了针对性的防控措施,以期对新型冠状病毒（2019-nCoV）以及未来可能出现的其他病毒的环境传播防控对策提供参考.      

粘虫颗粒体病毒及其增效因子对粘虫核型多角体病毒的增效作用

生物测定的结果表明,粘虫颗粒体病毒ＰｕＧＶ－Ｐｓ及其增效因子对粘虫核型多角体病毒ＰｓＮＰＶ均有明显的增效作用．粘虫颗粒体病毒不仅能提高粘虫感染ＰｓＮＰＶ的死亡率,而且ＮＰＶ、ＧＶ两种病毒混合感染使粘虫幼虫代谢发育受到抑制,表现为生长缓慢、体重减少等．增效因子的增效作用表现在能显著提高粘虫幼虫的死亡率,降低核型多角体病毒的半致死浓度ＬＣ５０,并缩短半致死时间ＬＴ５０．     

病毒在土壤中的存活时间与传播能力及其影响因素

土壤是病毒在自然界主要的分布场所,也是病毒传播的一种媒介.对流感病毒、肠道病毒、甲型肝炎病毒和冠状病毒在土壤中的存活与传播进行了系统分析,并探究了病毒在土壤中吸附与存活的主要影响因素.结果表明:流感病毒、肠道病毒、甲型肝炎病毒和冠状病毒均能在土壤中存活较长时间,并能以土壤为介质进行传播,进而导致人体暴露;土壤微生物、含水量、土壤类型及温度是影响病毒在土壤中吸附与存活的主要因素,土壤微生物的存在、含水量的降低以及温度的升高可能阻碍病毒在土壤中的存活,黏粒含量及pH较高的土壤中病毒的吸附量与存活率较高,而金属氧化物及有机质含量较高的土壤中病毒的吸附量与存活率较低.基于上述分析,对病毒在土壤中存活与传播的研究提出了有针对性的建议,如系统开展我国土壤病毒的调查研究,加强病毒在土壤中存活、传播规律及影响因素的研究等.研究显示,土壤在病毒的环境传播过程中具有重要作用,不可忽视病毒经土壤传播产生的风险.