酶联免疫斑点法在新发传染病疫苗研究中的应用

酶联免疫斑点法(ELISPOT)是一项具有较高敏感性和特异性的细胞免疫学检测技术,目前常用于疫苗开发中评价疫苗诱发的细胞免疫效应。我们就ELISPOT技术的原理、具体实验操作、技术优势,及其在新发传染病疫苗研究中的应用等进行综述。     

热休克蛋白HSP70和gp96增强乙肝DNA疫苗的细胞和体液免疫应答

旨在以乙肝病毒 (HBV) 的主要结构蛋白-表面蛋白 (HBsAg) 和核心蛋白 (HBcAg) 作为抗原设计DNA疫苗,研究热休克蛋白HSP70和gp96作为新型免疫佐剂增强疫苗的细胞免疫和体液免疫水平。利用酶联免疫斑点实验、流式细胞内因子染色、3H-TdR实验、酶联免疫吸附实验技术分析,结果显示HSP70和gp96可使疫苗的细胞免疫水平提高1~6倍,提高体液免疫水平20％~60％。研究结果为设计以HSP70和gp96作为免疫佐剂的新型乙肝治疗性疫苗提供了依据。     

光周期影响雌性虹鳟鱼的免疫活动

运用放射免疫测定法,酶联免疫吸附法及酶联免疫斑点法调查了性未成熟雌性虹鳟鱼在生殖季节血浆中的皮质醇,雌二醇,睾丸酮,免疫球蛋白Ｍ（ＩｇＭ）,抗体产生细胞等水平的变化,同时也测定了不同光周期条件下ＩｇＭ水平的变化。实验结果表明,伴随生殖季节,血浆中甾醇类激素,ＩｇＭ量和抗体科生细胞数有季节性的变化;另外,生活在不同光周期条件下的虹鳟鱼,血浆中ＩｇＭ的量明显地不同,由于实验是在常温条件下进行的,而且即     

T SPOT TB技术用于结核的辅助诊断

近年来,我国结核病的发病率有上升趋势,临床上经常会遇到一些症状不典型的结核病和肺外结核病,而目前可用于诊断结核病的方法有限,同时又缺乏快速敏感的实验室技术,为结核病的早期诊断与治疗带来困难.酶联免疫斑点法(enzyme-linked immunospot assay,ELISPOT)技术是一种新型的免疫酶技术,从单细胞水平检测分泌抗体细胞或分泌细胞因子细胞[1].由ELISPOT发展而来的T SPOT TB(结核感染T细胞斑点试验)技术用于检测结核感染后特异性T细胞分泌的γ干扰素(IFN-γ),并据此结果判断是否感染结核.     

体内电穿孔对载体表达效率和人类免疫缺陷病毒1型DNA疫苗免疫反应效果的研究

本文旨在分析体内电穿孔（EP）技术对DNA载体pDRVIl．0表达效率和人类免疫缺陷病毒1型（HIV-1）DNA疫苗免疫反应的辅助效果,为其在DNA疫苗中的应用提供参考数据。通过构建携带荧光素酶基因的pDRVll．0-Fluc质粒,利用活体成像技术分析EP接种对荧光素酶蛋白的组织分布、表达水平和持续时间的影响;同时,构建携带我国HIV-1CRF07-BC流行毒株env基因的DNA疫苗pDRVll．0-HIV,利用酶联免疫斑点法（ELISPOT）、酶联免疫吸附试验（ELISA）和中和抗体法对EP辅助免疫反应的特点进行分析。结果显示,EP接种后,pDRVll．0-Fluc质粒未改变组织分布特点,但其体内表达效率显著提高,载体的饱和接种量降低。同时,EP技术提高了pDRVll．0-HIV疫苗免疫小鼠后诱导的γ干扰素（IFN-7）分泌型T细胞反应和Env特异性结合抗体效价。结果提示,EP技术可在DNA疫苗应用方面发挥作用。     

抗大肠埃希氏菌F41粘附素特异单克隆抗体的研制及其初步应用

应用杂交瘤技术获得7株能稳定分泌F41特异单克隆抗体的杂交瘤细胞系,分别命名为Ll0、B10、C32、B1、E7、E40和B49。在直接凝集试验、酶联免疫吸附试验和间接荧光试验中,这7株单克隆抗体对所试的31株肠道菌中所有F41阳性菌株都发生反应,与F41阴性菌株则无反应性。抗原竞争ELISA试验结果发现,这些单克隆抗体是针对F41粘附素上相同或十分相近的抗原决定簇。采用肢体金标记技术和免疫电镜证实,这些抗原决定簇在F41粘附素的每条纤毛上多次重复出现。体外肠吸附抑制试验表明,7株F41l特异单克隆抗体对B41M菌株具有很强的抑制能力,对B41菌株则必须用F41和K99单克隆抗体同时作用才具有完全的肠吸附抑制效果。本文用直接酶标单克隆抗体建立的酶联免疫斑点试验具有高度的特异性和灵敏性,可广泛用于现场快速诊断。     

磁性均相酶联免疫分析系统高技术产业化

该项目采用自主开发的纳米磁性微珠生产技术,创造性地将纳米磁性微珠分离技术和酶联免疫分析技术相结合,用碱性磷酸酶代替经典酶联免疫分析的辣根过氧化物酶，建立了一种全新的酶联免疫分析方法，使得该项目生产的磁酶免疫试剂、测定分析仪等系列产品在分析的灵敏度、准确率、精密度、特异性等方面拥有传统的放射免疫分析和酶联免疫分析所无法达到的性能优势，技术水平国内领先。[第一段]     

酶联免疫吸附测定技术在食品卫生检验中的应用

酶联免疫吸附技术是一种酶联免疫技术,能够对包裹在固相板孔中的待测抗体或者抗原进行监测。该方法操作简单,针对性强,快速有效,因此常被用于食品的安全检测当中。本文就酶联免疫吸附测定技术在食品卫生检验中的应用进行了综述,希望对酶联免疫吸附测定技术的进一步发展和应用起到一定的参考作用。     

慢性丙型肝炎患者特异性CD4^＋细胞丧失分泌白细胞介素2的功能

丙型肝炎病毒（HCV）易引起持续感染，确切机制尚不清楚。为研究HCV慢性感染者的特异性CD4^＋T细胞免疫应答状况，作者以γ干扰素（IFN-γ）和白细胞介素2（IL-2）酶联免疫斑点法（ELISpot），分析了在HCV抗原刺激下，23名未接受治疗的慢性丙肝炎患者（PCR^＋），11名HCV感染自然清除者（PCR^-）及13名健康对照者的CD4^＋T细胞分泌IFN-γ和IL-2功能.     

细胞因子对脐血B细胞免疫球蛋白类别转换的调节

为了解细胞因子对新生儿Ｂ细胞免疫球蛋白类别转换的调节作用,在体外细胞培养的基础上,采用反向酶联免疫斑点法观察了脐血单个核细胞及添加重组细胞因子后脐血Ｂ细胞免疫球蛋白释放细胞数量（ＩｇＳＣｓ）。结果：正常脐血单个核细胞仅产生少量的ＩｇＳＣｓ。用抗ＣＤ３单抗刺激丝裂霉素Ｃ处理后的脐血Ｔ细胞,并补充ｒＩＬ－２、ｒＩＬ－４、ｒＩＬ－１０及其组合,可诱导脐血Ｂ细胞释放ＩｇＡ、ＩｇＧ和ＩｇＭ。这些结果提示：细胞因子的补充可促进体外新生儿Ｂ细胞免疫球蛋白的类别转换     

On molecular taxonomy: what is in a name?

Gene sequences of small portions of the genome are often used for premature detailed taxonomic changes, neglecting polyphasic taxonomy, which should also consider phenotypical characteristics. Three examples are given: (i) Recently, members of the genera Eperythrozoon and Haemobartonella have been moved, correctly so, from the Rickettsiales to the Mycoplasmatales, but were assigned to the genus Mycoplasma, mostly on the basis of 16S rRNA sequence analysis. Not only is the 16S rRNA sequence similarity between 'classical' Mycoplasma and these species of Eperythrozoon and Haemobartonella less than that between some other well-recognised bacterial genera, but their biological differences amply justify their classification in different genera of the Mycoplasmatales. Furthermore, the move creates considerable confusion, as it necessitates new names for some species, with more confusion likely to come when the 16S rRNA sequences of the type species of Eperythrozoon, a name which has priority over Mycoplasma, will be analysed. (ii) In the Rickettsiales, members of the genera Anaplasma, Ehrlichia, Cowdria, Neorickettsia and Wolhbachia are so closely related phylogenetically on the basis of 16S rRNA sequences, and for some also of groESL operon sequences, that they have recently been fused, correctly so, into one family, the Anaplasmataceae, while the tribes Ehrlichieae and Wolbachieae have been abolished. Sequence diversity within the 'classical' genus Ehrlichia has led to classifying E. phagocytophila (including E. equi and the agent of human granulocytic ehrlichiosis), E. platys and E. bovis in the genus Anaplasma, while others have been retained in Ehrlichia, which also includes Cowdria ruminantium. E. sennetsu and E. risticii have been transferred to the genus Neorickettsia. 16S rRNA and GroEL sequences of 'classical' Anaplasma and some members of 'classical' Ehrlichia do show a close relationship, but differences in citrate synthase gene sequences, the GC content of this gene, and sequences of the gene encoding the beta-subunit of RNA polymerase, not to speak of the phenotypical differences, do not justify the fusion into one genus. Because of the phylogenetical diversity in Ehrlichia it is recommended that a new genus name be created for the E. phagocytophila genogroup (and E. platys and E. bovis). (iii) One of the conclusions of studies on the phylogeny of ticks of the subfamilies Rhipicephalinae and Hyalomminae, based on nucleotide sequences from 12S rRNA, cytochrome c oxidase I, the internal transcribed spacer 2, 18S rRNA, as well as morphological characters, is that Boophilus should be considered as a subgenus of Rhipicephalus. While Boophilus and Rhipicephalus are undoubtedly close, the obviously important morphological and biological differences between the genera Rhipicephalus and Boophilus are thus overruled by similarities in the sequences of a number of genes and this leads to considerable confusion. Polyphasic taxonomy amply justifies maintaining Boophilus as a separate genus, phylogenetically near to Rhipicephalus. This note is a plea for a cautious and balanced approach to taxonomy, taking into account molecular genotypical information, as far as is possible from different genes, as well as phenotypical characteristics.     

Effects of Microbial and Other Antagonistic Organism and Competition on Entomopathogenic Nematodes

Antagonistic factors, broadly identified as antibiosis, competition and natural enemies, impact on entomopathogenic nematodes. Antibiosis can occur through the release of plant chemicals from the roots into the soil, which may adversely affect the host-finding behavior of the infective stage nematode, or the presence of these chemicals in the host insect may negatively affect nematode reproduction. In laboratory studies, intra-specific and inter-specific competition reduces nematode fitness, and inter-specific competition can cause local extinction of a nematode species. For example, after concomitant infection of a host, a steinernematid species usually excludes a heterorhabditid species. The mechanism for the steinernematid superiority has been postulated to be a bacteriocin(s) produced by Xenorhabdus, the symbiotic bacterium of the steinernematid, which prevents Photorhabdus, the symbiotic bacterium of the heterorhabditid, from multiplying. Inter-specific competition between two steinernematid species shows that both can co-exist in a host, but one species will eventually prevail in the environment. By having different foraging strategies, however, both steinermatid species may co-exist in the same habitat. An important issue is whether the introduction of an exotic entomopathogenic nematode species will competitively displace an indigenous nematode species. Although the environmental risks are small, the recommended policy is that the introduction of exotic nematodes be regulated. With other pathogens, entomopathogenic nematodes can out-compete entomopathogenic fungi, but not Bacillus thuringiensis, for the same host individual when both the nematode and entomopathogen are applied simultaneously. The best studied natural enemy is the nematophagous fungus, Hirsutella rhossiliensis, which causes higher mortality in Steinernema glaseri compared with Heterorhabditis bacteriorphora. Differential susceptibility to the fungus may be associated with the retention of the second-stage cuticle by H. bacteriophora. Invertebrate predators including mites and collembolans feed on entomopathogenic nematodes. Although a number of studies have been conducted with antagonists, there is a dearth of field data. We suggest that long-term research plots be established where natural populations of entomopathogenic nematodes occur and include antagonists as a component of such studies.     

山东山旺Palaeomeryx化石的初步研究

Palaeomeryx 在含义、性质和分类位置上,一直是一个争论较多的属.最近在山旺发现的 Palaeomeryx 完整骨架,为解决上述问题提供了有价值的资料和证据. Palaeomeryx 雄性具有一对眶上"皮骨角"和单一的"枕顶角".根据共近裔性状的分析,本文作者认为 Palaeomeryx 应该归入长颈鹿,作为这一支中最早分出的一个旁支.长颈鹿和鹿科有较近的亲缘关系,而和牛科的关系较远. Palaeomeryx 大概位于 Blastomeryx 和 Leptomeryx 之间,从反刍类主干中分出.山旺的材料,代表本属中一个较原始的新种: Palaeomeryx tricornis. 它的时代,可能相当于欧洲的 MN4 或 MN5.     

世界柽麦蛾属支序生物地理学研究（鳞翅目： 麦蛾科）

基于对世界柽麦蛾属昆虫外部形态和外生殖器的形态学研究,选择了66个性状演变系列,通过PAUP*4b10软件对柽麦蛾属51种昆虫进行了支序系统学分析。分析结果认为heluanensis种团并不是一个单系群,柽麦蛾属被重新作了7个种团的划分。在支序系统学分析的基础上,柽麦蛾属昆虫的14个地理分布区域等级关系被重建,显示出古地中海地区复杂的历史,同时说明在该属分布格局中扩散事件客观存在。     

Phylogenetic analysis of the Brachyura (Crustacea, Decapoda) based on characters of the foregut with establishment of a new taxon

The Brachyura, within the decapod crustaceans, is one of the most species-rich taxa with up to 10 000 species. However, its phylogenetic history, evolution and fossil record remain subjects of controversy. In our study, we examined the phylogenetic relationships of the Brachyura based on morphological characters of the foregut. The cladistic analysis supports a monophyletic Brachyura including the Dromiidae and Raninidae. A clade comprising Dromiidae and Dynomenidae forms the most basal assemblage within the Brachyura, followed by the Homolidae and Latreilliidae. As a result, neither Podotremata nor Archaeobrachyura form a clade. In contrast, foregut data suggest that the classical taxon Oxystomata, comprising Calappidae, Parthenopidae, Dorippidae, Leucosiidae, Cymonomidae and Raninidae, is monophyletic. This makes the Heterotremata paraphyletic or polyphyletic. A newly established taxon, Neobrachyura, embraces some representatives of the Heterotremata and the monophyletic Thoracotremata.     

Floral elaiophore structure in four representatives of the Ornithocephalus clade (Orchidaceae: Oncidiinae)

Background and Aims A significant number of species assigned to the Neotropical orchid sub-tribe Oncidiinae reward insect pollinators with oil produced in floral glands termed elaiophores. The latter may be glabrous (epithelial elaiophores) or hirsute (trichomal elaiophores). Although the detailed anatomy and ultrastructure of epithelial elaiophores have been studied for a number of genera, such as Oncidium Sw., Gomesa R. Br. and Trichocentrum Poepp. & Endl., hitherto, trichomal elaiophores have been investigated only for a single species of Oncidiinae, Ornithocephalus ciliatus Lindl. Furthermore, this is the only representative of the Ornithocephalus clade to be investigated to date. Here, an examination is made of the elaiophore anatomy and ultrastructure of a further four species currently assigned to this clade (Ornithocephalus gladiatus Hook., Phymatidium falcifolium Lindl., Zygostates grandiflora (Lindl.) Mansf. and Zygostates lunata Lindl.) and the results compared with those obtained for other Oncidiinae. Methods Elaiophore structure was examined for all species at three stages of flower development: closed bud, first day of anthesis and final stage of anthesis, using light microscopy, fluorescence microscopy, scanning electron microscopy, transmission electron microscopy and histochemistry. Key Results Elaiophores of O. gladiatus occur upon the lateral lobes of the labellum and display characters intermediate between those of typical epithelial and trichomal elaiophores, in that they are largely glabrous, consisting mainly of cuboidal epidermal cells, but bear short, unicellular hairs proximally. By contrast, the elaiophores of all the other species investigated occur on the callus and are of the trichomal type. In P. falcifolium, these unicellular hairs are capitate. In all species, oil secretion commenced at the closed floral bud stage. Ultrastructurally, the mainly trichomal elaiophores of the four representatives of the Ornithocephalus clade closely resembled the epithelial elaiophores of other Oncidiinae, in that their cells displayed an organelle complement typical of lipid-secreting cells. However, in some taxa, a number of noteworthy characters were present. For example, the elaiophore cuticle of O. gladiatus and P. falcifolium was bi-layered, the outer layer being lamellate, the inner reticulate. The cuticle of Z. grandiflora and Z. lunata was also lamellate, but here, a reticulate layer was absent. Accumulation of secreted oil resulted in the localized distension of the cuticle. Cuticular cracks and pores, however, were absent from all species. The walls of the secretory cells of Z. grandiflora were also atypical in that they had short protuberances or ingrowths, and contained cavities which are thought to be involved in the secretory process. Conclusions Of the species investigated, most displayed similar anatomical organization, their trichomal elaiophores occurring on the labellar callus. They, thus, differ from many other members of the Oncidiinae, where epithelial elaiophores are found either on the callus, or on the lateral lobes of the labellum. However, ultrastructurally, all elaiophores, whether those of representatives of the Ornithocephalus clade, or those of other oil-secreting Oncidiinae, possessed a similar complement of organelles, regardless of whether the elaiophores were trichomal or epithelial. In view of the latter, and the similar chemical composition of oils derived from all Oncidiinae investigated to date, it is probable that position and type of elaiophore, and possibly the structure of the overlying cuticle, play an important role in pollinator selection in these oil-secreting orchids.     

Comparative morphology and evolutionary pathways of the mouthparts in spore-feeding Staphylinoidea (Coleoptera)

This study surveys the external morphology of the mouthparts in the guild of spore‐feeders among the coleopterous superfamily Staphylinoidea, evaluating the influence of different phylogenetic and ecological starting points on the formation of their mouthparts. Our emphasis is on a scanning electron microscope analysis (SEM) of the involved trophic structures in spore‐feeding larvae and adults of the Ptiliidae, Leiodidae and Staphylinidae, describing the fine structure of their main functional elements. Functionally, mouthpart structures resemble brushes, brooms, combs, rakes, rasps, excavators, knives, thorns, cram‐brushes, bristle troughs, blocks and differently structured grinding surfaces. Their different involvement in the various aspects of the feeding process (i.e. food gathering, transporting, channelling and grinding) is deduced from our SEM analyses plus direct video observations. We infer five different patterns of food transport and processing, discriminating adults of ptiliids, leiodids plus staphylinids (excluding some aleocharines), several aleocharine staphylinids, and the larvae of leiodids and staphylinids. The structural diversity of the mouthparts increases in the order from (1) Ptiliidae, (2) Leiodidae towards (3) Staphylinidae, reflecting the increasing systematic and ecological diversity of these groups. Comparisons with non‐spore‐feeders show that among major lineages of staphylinoids, shifts from general microphagy to sporophagy are not necessarily constrained by, nor strongly reflected in, mouthpart morphology. Nevertheless, in several of these lineages the organs of food intake and grinding have experienced particular fine‐structural modifications, which have undergone convergent evolution, probably in response to specialized mycophagy such as spore‐feeding. These modifications involve advanced galeal rakes, galeal or lacinial ‘spore brushes’ with arrays of stout bristles, reinforced obliquely ventrad orientated prosthecal lobes and the differentiations of the molar grinding surfaces into stout teeth or tubercles. In addition, several staphylinids of the tachyporine and oxyteline groups with reduced mandibular molae have evolved secondary trituration surfaces, which in some aleocharines are paralleled by considerable re‐constructions of the labium–hypopharynx.