单核细胞增多性李斯特菌谷胱甘肽还原酶GR的生物学特性

【目的】本文旨在构建单核细胞增多性李斯特菌谷胱甘肽还原酶(glutathione reductase,GR)基因lmo1433(gr)缺失株,并研究GR在细菌生长和运动过程中发挥的作用及与谷氧还蛋白(glutaredoxin,Grx)系统间的调控关系,探究GR参与细菌抗氧化应激和致病力的生物学功能,为阐明氧化还原蛋白介导细菌环境适应和宿主内感染的机制奠定分子基础。【方法】利用细菌遗传操作系统构建获得gr缺失株及回补株后,通过分子生物学和感染生物学手段,比较野生株和突变株的运动性、生长能力、抗氧化应激、细胞黏附、侵袭和增殖能力;利用整合型质粒构建带GR启动子的荧光报告系统,并结合荧光定量分析GR受Grx调控的情况。【结果】缺失gr后李斯特菌在体外培养基中的生长能力未受明显影响,但在半固体培养基中的运动能力却显著增强;缺失gr后细菌在铜离子、镉离子以及肼中抗氧化应激能力增强,在H_2O_2中无差异;缺失gr后细胞黏附、侵袭和增殖能力均显著增强;荧光报告系统定量分析发现grx缺失后gr的启动子活性显著增强,表明Grx参与对GR的转录负调控。【结论】本研究首次证实了单增李斯特菌谷胱甘肽还原酶GR能调控细菌的运动能力,并且缺失GR增强了李斯特菌的抗氧化应激和感染宿主能力;首次证实了GR的自身转录受Grx负调控,但具体分子机制有待于深入探究。本研究有助于深入理解单增李斯特菌氧化还原蛋白的调控关系以及通过参与诸多生物学过程介导细菌体外环境适应及宿主内感染的分子机制,为防控胞内菌感染提供了新策略。     

单增李斯特菌LPXTG蛋白Lmo0880在感染致病中的作用

【目的】通过构建单核细胞增生李斯特菌(单增李斯特菌) LPXTG蛋白Lmo0880的基因缺失菌株和回补菌株,探究Lmo0880在细菌生长、细胞感染和宿主感染等方面发挥的作用。【方法】利用同源重组原理构建lmo0880的基因缺失株及回补株,比较野生株、缺失株和回补株在生长能力、细胞黏附与侵袭和胞内增殖能力等方面的差异,从而鉴定Lmo0880在单增李斯特菌感染宿主中的作用。【结果】缺失lmo0880基因后,单增李斯特菌在生长能力上无明显变化;对细胞的黏附能力无显著差异,但对细胞侵袭能力、胞内增殖能力、小鼠致病力和小鼠组织定殖能力显著降低。【结论】本研究阐明了单增李斯特菌LPXTG蛋白Lmo0880在细胞侵袭、胞内增殖和组织定殖等方面发挥的重要作用。     

单增李斯特菌末端氧化酶亚基QoxB的生物学功能探究

【目的】本研究旨在构建单增李斯特菌末端细胞色素aa3氧化酶亚基qoxB基因缺失株,并探索其在细菌生长及感染过程中发挥的生物学功能。【方法】利用同源重组方法构建获得缺失株ΔqoxB后,对野生株EGD-e和缺失株ΔqoxB的生长能力、细菌运动能力和细胞内黏附、侵袭、增殖及胞内迁移能力进行比较,同时利用荧光定量PCR方法检测ΔqoxB中鞭毛相关基因转录水平的变化。【结果】缺失qoxB基因后细菌在体外培养过程中生长能力没有差异,细菌的鞭毛运动能力显著降低,在30℃培养24 h和48 h后ΔqoxB运动圈直径分别较EGD-e下降35.86%和34.20%,且22个鞭毛相关基因转录水平显著降低。通过细胞感染试验发现缺失qoxB基因后细胞黏附、侵袭、增殖及胞内迁移能力均显著下降。【结论】本研究首次证实末端氧化酶亚基QoxB能降低单增李斯特菌的运动能力和对细胞的感染能力,此研究为进一步阐明末端细胞色素氧化酶影响单增李斯特菌的致病机制提供重要依据。     

单核细胞增多性李斯特菌硫氧还蛋白Lmo1609的应激生物学功能研究

[目的]本研究旨在构建单核细胞增多性李斯特菌(Listeria monocytogenes)硫氧还蛋白Lmo1609的基因缺失株,分析Lmo1609的氧化还原酶学活性,及其在细菌生长、运动过程中发挥的作用,并探究了Lmo1609参与细菌抗氧化应激和致病的生物学基础。为阐明其抗应激生物学作用以及完善李斯特菌的感染机制奠定分子基础。[方法]利用同源重组原理构建lmo1609基因缺失株及回补株。通过分子生物学、应激生物学和感染生物学等手段,对Lmo1609的生物学功能进行探索。以胰岛素为底物分析其氧化还原酶学活性;通过构建lmo1609缺失株和回补株,比较野生株和突变株在运动性、生长能力、抗氧化应激、细胞黏附、侵袭和增殖能力等方面的差异,进而鉴定Lmo1609的生物学功能。[结果]缺失lmo1609后,单增李斯特菌在生长能力上无明显变化,而运动能力明显减弱;对H₂O₂的敏感性增强;对细胞的黏附侵袭能力没有差异;对小鼠的致病力没有显著影响。[结论]本研究首次证实了单增李斯特菌硫氧还蛋白Lmo1609具有还原酶学活性,参与调控细菌的运动和对H₂O₂的氧化应激耐受,不介导单增李斯特菌的致病性。     

单增李斯特菌二硫键形成蛋白DsbG介导酸耐受及鞭毛运动性调控北大核心

【目的】本研究旨在通过构建单增李斯特菌(Listeria monocytogenes)二硫键形成蛋白编码基因dsbG缺失株和回补株,探究该蛋白在酸耐受和鞭毛介导的运动性中发挥的生物学功能。【方法】利用同源重组方法构建单增李斯特菌dsbG缺失株和回补株,比较野生株和突变株在不同pH梯度培养基条件下的生长速率和存活率;通过实时荧光定量PCR方法,比较致死酸应激条件下野生株和缺失株酸耐受基因转录水平。通过半固体培养基、荧光定量PCR方法和鞭毛负染色透射电镜观察,比较野生株和突变株的运动能力、鞭毛相关基因转录水平变化和鞭毛形态差异。【结果】与野生株相比,dsbG缺失株的生长能力和速率差异不显著;在pH 3.5(盐酸和柠檬酸)培养条件下,存活率显著降低;精氨酸合成途径基因argD和argF转录水平分别下调2.4和3.7倍。同时,dsbG缺失株的运动能力减弱,且鞭毛形成相关的flaA、flgB和flgD等基因转录水平显著下调(分别为29.7、6.7和6.9倍),鞭毛形成能力减弱。【结论】本研究首次证实了单增李斯特菌二硫键形成蛋白DsbG能感应低pH应激,并形成耐受;证实了DsbG通过调控鞭毛相关基因的转录进而影响细菌的鞭毛形成和运动性。本研究有助于深入了解二硫键形成蛋白家族介导单增李斯特菌环境适应的分子机制,为食源性致病菌的防控提供理论基础。     

DegU调控单核细胞增生李斯特菌感染宿主细胞及适应高温的机制研究

【目的】本研究旨在探究孤儿调节因子DegU在介导单核细胞增生李斯特菌(Listeria monocytogenes)宿主感染和高温环境适应性方面的调控机制。【方法】本研究以单增李斯特菌参考菌株EGD-e、degU基因缺失菌株ΔdegU和回补菌株CΔdegU为研究材料，通过细胞模型、实时荧光定量聚合酶链式反应和凝胶阻滞试验等方法探究DegU对单增李斯特菌感染宿主细胞和适应高温的调控机制。【结果】研究结果表明：缺失degU后，单增李斯特菌在Caco-2上的黏附和侵袭能力显著降低，在RAW264.7中的增殖能力显著降低，在L929中的空斑形成能力也显著降低；进一步通过实时荧光定量聚合酶链式反应检测degU基因缺失后引起的单增李斯特菌毒力因子转录水平变化，发现多个重要毒力因子转录水平均显著下调；该试验结果还发现与毒力相关的热应激基因clpE(受CtsR抑制的ATP依赖蛋白水解酶编码基因)转录水平显著升高，而在43℃高温条件下，clpE转录水平显著降低；进一步通过凝胶阻滞试验结果表明DegU能够与clpE的启动子直接结合。【结论】综上所述，degU基因缺失能够降低单增李斯特菌在宿主感染过程中的细...     

天然缺失inlAB的非典型单核细胞增多性李斯特菌生物学特性鉴定

摘要：【目的】 InlA与InlB是单核细胞增多性李斯特菌重要的毒力因子,其介导的黏附作用是细菌建立感染的前提。本研究拟探明天然缺失inlAB基因簇的非典型单增李斯特菌的表型与基因型特征。【方法】针对inlAB天然缺失株S10,进行生化特征、细胞黏附力、小鼠体内毒力、感染相关基因检测、谱系分析等。【结果】 S10株为具有典型单增李斯特菌生化特征的1/2b型菌株,对HeLa细胞的黏附力显著低于其他菌株（p<0.05）,对小鼠毒力较弱。S10缺失inlAB及与其毗邻的lmo0431、lmo0432、lmo0436、lmo0437基因,但具有李斯特菌第一毒力岛中完整的毒力基因构成。S10分布于谱系Ⅰ的进化枝上,与4b型菌株的遗传距离较近。【结论】 S10为单增李斯特菌inlAB天然缺失株代表该类非典型菌株的首次报道。S10具有典型的单增李斯特菌谱系Ⅰ基因背景,inlAB可能通过独立的重组或水平转移事件缺失于基因组。     

单增李斯特菌毒力因子溶血素关键氨基酸位点在感染过程中的作用研究

【目的】探究单增李斯特菌溶血素O (listeriolysin O, LLO)中D3区域β8折叠片上第253位氨基酸(谷氨酰胺,Q)和第254位氨基酸(异亮氨酸,I)对单增李斯特菌(Listeria monocytogenes)感染生物学功能的影响。【方法】构建LLO_Q253A和LLO_I254A突变蛋白的原核表达菌株,以及利用同源重组方法构建hly_Q253A和hly_I254A突变株;通过表达纯化突变蛋白,测定溶血活性;比较LLO第253位Q和第254位I均突变成丙氨酸(A)后,对细菌体外生长能力、黏附侵袭、胞内迁移和增殖能力的影响。【结果】相应位点突变后,LLO蛋白均能够正常表达。在pH 6.5条件下,所有突变蛋白和突变株的溶血活性丧失。然而,在pH 5.5条件下,LLO_I254A和hly_I254A恢复了溶血活性。与野生株相比,突变株的体外生长、黏附能力和胞内增殖能力均无明显差异;突变株的侵袭能力和胞间迁移能力显著低于野生株。【结论】本研究证实第253位Q和第254位I均突变成A后,单增李斯特菌在pH 6.5条件下丧失溶血活性,并降低了感染宿主细胞的能力,但具体机制还有待进一步探索。本研究为深入探究LLO结构对单增李斯特菌生物学功能的影响奠定基础,对单增李斯特菌点突变株的构建具有一定参考意义。     

硫氧还蛋白Lmo1903介导单增李斯特菌抵抗氧化应激的生物学功能研究

【目的】以单增李斯特菌(Listeria monocytogenes, LM)硫氧还蛋白Lmo1903为研究对象,研究其在细菌环境适应过程中的抗氧化应激生物学作用。【方法】使用生物信息学方法分析Lmo1903的进化关系和关键活性位点,使用酶切连接的方法构建Lmo1903蛋白表达载体,获得纯化的重组蛋白,以胰岛素为底物分析其氧化还原酶学活性;同时制备鼠源多克隆抗体,分析其在细胞内的定位;采用核苷酸定点突变技术构建CX1X2C基序中的半胱氨酸点突变蛋白,分析关键位点半胱氨酸对Lmo1903酶活的影响;采用同源重组原理构建lmo1903基因缺失株Δlmo1903和回补株CΔlmo1903,研究lmo1903在单增李斯特菌生长、运动和抗氧化应激方面发挥的功能。【结果】生物信息学分析显示,Lmo1903含有CX1X2C基序,与枯草芽孢杆菌(Bacillussubtilis)的TrxA的亲缘关系较近,属于硫氧还蛋白家族成员,主要定位在细菌细胞质中,具有较强的还原酶学活性,突变CX1X2C基序中的半胱氨酸残基会显著降低Lmo1903的还原酶活能力。缺失lmo1903不影响单增李斯特菌的生长能力,但显...     

单增李斯特菌vip基因缺失菌株的构建与筛选

单增李斯特菌(Listeria monocytogenes)是广泛存在于自然界及食物中的食源性致病菌,作为胞内寄生菌,它可以引起强烈的细胞免疫,是潜在的优良疫苗载体。vip是单增李斯特菌的毒力基因,与其侵袭能力密切相关。因此构建vip基因敲除株可为单增李斯特菌疫苗载体的研发打下重要基础。从单增李斯特菌EGDe基因组中扩增出vip基因上、下游序列,连接到穿梭载体p KSV7中得到敲除载体p KSV7-Δvip,将其以电穿孔的方式转入单增李斯特菌后,通过同源重组利用氯霉素和温度双重压力筛选得到vip基因的敲除突变株,并对敲除菌株的生长曲线进行分析发现vip敲除对细菌的生长没有显著影响,为进一步研究vip基因功能、单增李斯特的致病机制和疫苗载体的研发提供参考。     

Heat-shock proteins induce heavy-metal tolerance in higher plants

Cell cultures of Lycopersicon peruvianum L. stressed with CdSO₄ (10^–3M) show typical changes in the ultrastructure, starting with the plasmalemma and later on extending to the endoplasmic reticulum and the mitochondrial envelope. Part of the membrane material is extruded, with the formation of osmiophilic droplets which increase in size and number during the stress period. After 4 h, about 20 of the cells are dead. A short heat stress preceeding the heavy-metal stress induces a tolerance effect by preventing the membrane damage. The cells show a normal ultrastructure with one exception: cytoplasmic heat-shock granules are formed. This protective effect can be abolished by cycloheximide. Cadmium uptake is not markedly influenced by the heat stress. Cadmium is found together with sulfur in small deposits in the vacuoles of stressed cells. The precipitates contain an excess of sulfur, evidently due to the stress-induced formation of phytochelatins. The role in heavy-metal tolerance of heat-shock proteins in the plasmalemma (HSP70) and in cytoplasmic heat-stress granules (HSP17, HSP70) is discussed.Abbreviations EDX energy dispersive analysis of X-rays - ESI electron-spectroscopic imaging - HM heavy metal - HSG heat-stress granules - HSP heat-shock protein - MNDO modified neglect of diatomic overlap This work was supported by the Ministerium für Wissenschaft und Forschung des Landes Sachsen-Anhalt and the Deutsche Forschungsgemeinschaft.     

Effect of Combined Salt and Heat Treatments on Germination and Heat-Shock Protein Synthesis in Lentil Seeds

The germination of lentil seeds was gradually reduced when seeds were exposed to temperature of 30 or 40 °C, either alone or combined with 0.1, 0.2 or 0.3 M NaCl or 34.1 % (m/v) PEG 8000, during 6 –12 h imbibition. [³⁵S]-methionine incorporation in 12 h imbibed lentil axes also decreased with increasing NaCl concentration at 20 and 40 °C, whereas at 30 °C only 0.3 M NaCl treatment partially inhibited protein synthesis. An analysis of newly synthesized proteins by 1-D SDS PAGE, showed that the expression of most polypeptides decreased following increasing stress. Among these, low molecular mass heat-shock proteins declining, higher in 40 °C treated axes than those treated at 30 °C, supports the hypothesis that at this temperature maximal level of expression of these proteins was achieved.     

Heat shock protein response to thermal stress in the Asiatic clam,Corbicula fluminea

A recent approach to evaluate environmenta induced damages has been damages has been suggested, based on the stress response. The approach involves the detection of stress protein induction in organisms to infer about environmental conditions in their surroundings. However, to be an indicator of adverse biological effects in the environment, the elevation of stress proteins should be compared to a response pattern for the experimental species. JuvenileCorbicula fluminea, collection from a control site, were submited to heat-shock stress in the laboratory to obtain the stress response pattern under normal and extreme conditions. Acclimated to 26°C, the specimens were submited to 29, 32, 35 and 38°C, for 96 h. After 1, 2, 4, 8, 24, 48, 72 and 96 h of exposure, clams were removed from each vial and prepared for stress protein analysis. Animals from the control site were frozen in liquid nitrogen at the time of collection, and prepared for stress protein analysis. Hsp60 and 70 were detected by immunoreactivity after separation on 12.5% polyacrylamide gels and transference to nitrocellulose by western blotting, to determine the stress protein concentrations. The result showed that hsp70 increased at 4h from the beginning of the experiment and progressed over the 96 h experimental period in animals exposed to 35°C. However hsp70 levels decreased between 4 h and 24 h for the clams stressed at their lethal temperature of 38°C. Immunoblotting with hsp60 showed similar reactivity. At 38°C there was an increase in the amount of hsp60 at 4h, reaching a maximum eight-fold level at 8h. By 96h, the amount decreased to levels lower than those observed at 4h. At 38°C the level of hsp60 began to decrease at 8 h and continue to decline to 24 h when the clams died. The data support the hypothesis of increasing concentrations of stress protein until the heat shock approaches the thermal limits for the species. The results of this research suggest the usefulness of using the stress response as a diagnostic in environmental toxicology. They confirm that the sps response may serve as a valid biomonitoring tool under chronic, sublethal exposures when it is still possible to prevent effects at organismal or higher organizational levels.     

Effect of dehydration and high light on photosynthesis of two C3 plants (Phaseolus vulgaris L. and Elatostema repens (Lour.) Hall f.)

The effect of drought on the photosynthetic functioning of two C₃ plants, Phaseolus vulgaris and Elatostema repens, has been examined. Leaf net CO₂ uptake measured in normal air was negligible at a leaf water deficit of about 30% while the calculated leaf intercellular CO₂ concentration (Ci) was unchanged. However, both the maximal photosynthetic capacity (CO₂-dependent O₂ evolution) and apparent quantum yield, measured in the presence of saturating CO₂ levels (5 to 14%), only started to decrease within the range of 25 to 30% leaf water deficit. This shows that the drought-induced inhibition seen in normal air is not caused by an inhibition of the photosynthetic mechanism, and that in this case Ci values can be misleading. Both 77 K and room-temperature fluorescence measurements indicate that the functioning of the photosystem-II reaction centre is hardly modified by water shortage. Furthermore, an analysis of photochemical chlorophyll fluorescence quenching shows, in the absence of CO₂, that O₂ can be an efficient acceptor of photosynthetic energy, even in severly dehydrated plants which do not show net CO₂ uptake in normal air. In these plants, O₂ is probably reduced mainly via Mehler-type reactions. High-light treatment given at low O₂ increases photoinhibition as measured by the decrease of apparent quantum yield in dehydrated P. vulgaris, whereas, interestingly, 1% O₂ protects dehydrated E. repens against high-light damage. The two plants could have different protective mechanisms depending upon the O₂ level or different photoinhibitory sites or mechanisms.Abbreviations and symbols Ca, Ci ambient and calculated intercellular CO₂ concentration - Fm, Fo, Fv maximum, initial and variable fluorescence emission - LWD leaf water deficit - PPFD photosynthetic photon flux density - PSII photosystem II - qQ photochemical quenching of chlorophyll fluorescence     

盐旱交叉胁迫对灰胡杨(Populus pruinosa)幼苗生长和生理生化特性的影响

以一年生灰胡杨幼苗为试验材料,利用田间控盐控水的方法,进行干旱和盐胁迫试验,通过测定生长和生理生化指标探讨幼苗在盐旱交叉胁迫下的生长发育及适应规律,旨在阐明干旱及盐交叉胁迫下植物抗旱抗盐机理。研究结果表明:在盐、旱及交叉胁迫下,灰胡杨幼苗抗氧化酶活性、MDA和脯氨酸含量与对照存在显著差异(P0.05)。(1)在8、11 g/L和15 g/L盐处理下,灰胡杨幼苗相对高生长、相对枝长和冠幅增量均受到抑制,且差异显著(P0.05),而干旱胁迫和盐旱交互胁迫下差异不显著。(2)在盐胁迫、盐旱交叉胁迫下,随着胁迫程度的加重,抗氧化酶SOD、POD、CAT活性表现出先增加后降低的趋势,三者协调一致;仅干旱胁迫时,抗氧化酶SOD、POD、CAT活性显著增加;(3)在盐、旱及其盐旱交叉胁迫下,脯氨酸含量呈上升趋势,MDA含量则表现出先降低后升高趋势,这与抗氧化酶活性先升高后降低的趋势相对应。因此,抗氧化酶活性对缓解脂膜过氧化的伤害具有一定限度,MDA含量与抗氧化酶活性呈负相关,灰叶胡杨幼苗在盐旱交叉胁迫下表现出一定的耐性。     

山黧豆抗逆性研究进展

山黧豆是一种栽培历史悠久、种植广泛的豆科作物,具有很高的蛋白质含量和极强的耐旱能力,因而成为一些干旱、贫困和人口众多地区的主要饲料和粮食作物,且被考虑作为可持续发展农业的模式作物。随着人类对粮食、蛋白质和新型食物资源需求的日益增长,山黧豆的研究引起了世界各国学者的重视。该文对国内外近年来有关山黧豆在干旱、盐、重金属及生物胁迫下抗逆性方面的研究进展作了概述,同时简要介绍了山黧豆与干旱相适应的形态特征,并对亟需重点研究的几个方向作了展望。     

Effects of acute temperature or salinity stress on the immune response in sea cucumber, Apostichopus japonicus

Invertebrates are increasingly raised in mariculture, where it is important to monitor immune function and to minimize stresses that could suppress immunity. The activities of phagocytosis, superoxide dismutase (SOD), catalase (CAT), myeloperoxidase (MPO), and lysozyme (LSZ) were measured to evaluate the immune capacities of the sea cucumber, Apostichopus japonicus, to acute temperature changes (from 12 °C to 0 °C, 8 °C, 16 °C, 24 °C, and 32 °C for 72 h) and salinity changes (from 30‰ to 20‰, 25‰, and 35‰ for 72 h) in the laboratory. Phagocytosis was significantly affected by temperature increases in 3 h, and by salinity (25‰ and 35‰) changes in 1 h. SOD activities decreased significantly in 0.5 h to 6 h samples at 24 °C. At 32 °C, SOD activities decreased significantly in 0.5 h and 1 h exposures, and obviously increased for 12 h exposure. CAT activities decreased significantly at 24 °C for 0.5 h exposure, and increased significantly at 32 °C in 3 h to 12 h exposures. Activities of MPO increased significantly at 0 °C in 0.5 h to 6 h exposures and at 8 °C for 1 h. By contrast, activities of MPO decreased significantly in 24 °C and 32 °C treatments. In elevated-temperature treatments, activities of LSZ increased significantly except at 32 °C for 6 h to 12 h exposures. SOD activity was significantly affected by salinity change. CAT activity decreased significantly after only 1 h exposure to salinity of 20‰. Activities of MPO and LSZ showed that A. japonicus tolerates limited salinity stress. High-temperature stress had a much greater effect on the immune capacities of A. japonicus than did low-temperature and salinity stresses.     

木薯UGT41基因对细菌性枯萎病的抗性研究北大核心CSCD

糖基转移酶广泛存在于植物中,其中UDP依赖型糖基转移酶(UDP-glycosyltransferases,UGTs)基因家族是糖基转移酶中的一大类。该研究以华南124木薯品种(Manihot esculenta cv.SC124)为材料,利用RT-PCR技术克隆木薯MeUGT41基因,以病毒诱导干扰木薯MeUGT41基因的表达量,并对基因干扰植株进行细菌性枯萎病抗性评价,为研究MeUGT41基因在木薯抵抗细菌性枯萎病的抗病机理奠定基础。结果表明:(1)地毯草黄单胞菌(Xamthomonas axonopodis pv.Manihotis,Xam)可显著诱导木薯MeUGT41基因表达。(2)成功构建MeUGT41的病毒诱导基因沉默(VIGS)载体,将干扰载体转化至木薯叶片进行MeUGT41基因沉默,荧光定量PCR检测结果显示,木薯叶片中MeUGT41基因的表达量显著下降。(3)Xam侵染实验表明,干扰抑制MeUGT41基因表达可显著降低木薯植株叶片对Xam病菌侵染的抵抗能力。研究认为,木薯叶片中MeUGT41基因具有抵抗Xam病菌侵染的能力。     

Stress response to cold in Trichinella species

Trichinella-type larvae (L(1)) are found in the muscles of infected wild animals and domestic pigs and are the cause of trichinosis in man and other animals throughout the world. These parasites are exposed to low temperatures during their life cycle. On this premise, three Trichinella species of different types of habitat (the arctic T. nativa, the cosmopolitan T. spiralis, and the tropical T. nelsoni) were selected to examine the effect of a shift in temperature, from 37 to 4 degrees C, on long-term survival. Evaluation was then made of whether these effects were related to differential protein synthesis and/or heat shock protein (Hsp) expression. Test samples at 0, 2, 4, or 8 h and 1, 5, or 9 days after the temperature shift were obtained and subjected to Hsp determination by Western blotting. Total protein changes were explored by SDS-PAGE followed by densitometric analysis of the gels. During the "acclimatization phase" (at 2, 4, and 8 h), a different total protein and a depressed Hsp expression pattern were shown in each Trichinella species. Following acclimatization, Hsp70, but not Hsp60 or Hsp90, markedly increased above control levels in the three species, indicating a role for this Hsp as a classic stress protein. The synthesis of a 50-kDa Hsp was significantly induced in T. spiralis larvae, suggesting its potential function as a cold shock protein in this species.