苏芸金杆菌感染粘虫后中肠组织学病变的研究

本文描述了Bacillus thuringiensis HD-1纯晶体感染粘虫Mythimna separata 5龄初幼虫后,其中肠肠壁细胞的超微结构变化.电镜观察表明:首先线粒体,发生病变,随后,细胞顶部肿胀、胞质电子密度下降,顶部胞质之下的各种细胞器均受损伤.随着病变加重,柱状细胞基膜内褶及杯状细胞质突起,这两个富含线粒体的区域发生病变最为明显.最终,肠壁细胞解体从基膜脱落.     

线粒体功能障碍相关的蛋白运输

<正>线粒体功能障碍和细胞蛋白平衡失败是很多疾病和与年龄相关的病变的特征。受损的线粒体会通过各种机制(包括能量剥夺)导致细胞死亡。最近的研究发现了另外一种机制:来自胞质核糖体的线粒体蛋白的低效运输。研究者们发现,线粒体损伤会阻断核编码的蛋白向线粒体内的运输,通过触发胞质中"线粒体前体过度积累压力"(mPOS)的通道造成细胞退化。     

斑蝥素对粘虫和小菜蛾幼虫中肠组织的影响

粘虫 Mythimna separata (Walker) 和小菜蛾Plutella xylostella L.的幼虫经斑蝥素处理后,中肠组织发生明显的病变。粘虫幼虫中肠柱状细胞微绒毛脱落,杯状细胞变大,质膜消失;线粒体不规则肿胀,内嵴排列紊乱、溶解、断裂;粗面内质网扩张明显,核糖体脱落;细胞核肿胀,染色质浓缩,偏移。小菜蛾幼虫中肠组织病变更为明显。表明斑蝥素主要作用于中肠的膜系统,为进一步探讨其毒理机制提供了理论依据。     

非编码RNACARL抑制缺氧诱导的心肌细胞线粒体分裂以及细胞凋亡

正越来越多的研究发现线粒体的形态和功能异常与许多疾病的发病过程紧密相关,并且长链非编码RNA(lncRNA)也能够调节基因的表达。在正常细胞中,线粒体不断的发生分裂和融合,形成一个功能性的动态网络结构,维持细胞的生理功能。心脏是体内唯一的泵血器官,通过心肌细胞的不断收缩和舒张推动全身血液循环。心肌细胞对能量有大量的需求,因而细胞内主要的供能器官线粒体是否正常运转对线粒体形态的     

棉铃虫幼虫取食Vip3Aa蛋白后的中肠组织病理变化

为了进一步明确Vip3Aa的作用机制, 利用透射电镜观察了棉铃虫4龄幼虫取食含Vip3Aa蛋白饲料后中肠杯状细胞的病理变化, 并比较了其病变与取食含Cry1Ac饲料后棉铃虫组织病变的差异。取食含Vip3Aa饲料后, 棉铃虫幼虫的中肠杯状细胞逐渐发生病变, 主要表现为： 微绒毛肿胀、 脱落; 细胞核核膜界限不清晰, 染色质分布不均匀; 线粒体变形、 数量减少, 内脊不清晰; 内质网杂乱不规则、 数量减少。与取食Cry1Ac的棉铃虫相比, 取食Vip3Aa的棉铃虫中肠杯状细胞发生病变较为缓慢, 在取食12 h后才发现明显病变, 随着取食时间的增加病变越来越明显; 而取食Cry1Ac的棉铃虫2 h后中肠杯状细胞就出现明显病变。本研究可为Vip3Aa作为新毒素策略的重要蛋白在棉铃虫Helicoverpa armigera综合防治中更好地发挥作用提供理论依据。     

线粒体融合/分裂对线粒体的质量控制作用

线粒体是一种结构和功能复杂而敏感的细胞器,拥有独立于细胞核的基因组,在细胞的不同时相,生理过程和环境条件下,线粒体的形态,数量和质量,具有高度的可塑性。线粒体是细胞和生物体内最主要的能量供应场所,几乎存在于所有种类的细胞中,是一种动态变化的细胞器。正常情况下,线粒体的数量、形态以及功能维持相对稳定的状态,称之为线粒体稳态。当上述状态发生紊乱时,细胞乃至生物体形态、功能也将受到影响甚至死亡。线粒体质量控制是在细胞中维持正常状态的关键机制,决定着线粒体的命运。近年,随着线粒体研究的深入和具体,逐渐发现融合/分裂在其形态、数量、遗传物质等质量控制相关的方面挥了重要作用。本文通过探讨融合/分裂对线粒体质量控制的作用机制,总结和讨论相关前沿研究,为后期研究提供一定的理论依据。     

茶毛虫核多角体病毒侵染后宿主细胞学的病变

本文应用超薄切片、冰冻断裂、扫描电镜等技术,对茶毛虫核多角体病毒侵染后宿主细胞病理超微结构的变化等进行了研究。结果表明:病毒侵染72—120小时后,宿主中肠细胞器,如线粒体、内质网、核糖体、板层小体、溶酶体等均有明显的病变。同时,在中肠细胞表面有病毒粒子吸附外,细胞表面的微绒毛亦有倒塌肿胀等病症表现。     

线粒体功能的检测方法

线粒体为细胞内的能量工厂,对细胞的增殖、分化、存活以及稳态的维持起着重要的调节作用。线粒体功能障碍与机体生长、发育异常、认知发生障碍以及多种器官病变密切相关。线粒体形态、结构和功能的检测对于了解线粒体的稳态以及功能状态有着重要意义,线粒体的功能状态与线粒体膜电位、线粒体膜通道、线粒体Ca2+浓度、ATP生成、呼吸链复合体活性、活性氧生成以及DNA突变密切相关。本文就线粒体形态、结构和功能的检测方法及其研究进展进行了综述。     

细胞色素c在后处理抗大鼠肠缺血-再灌注损伤细胞凋亡中的变化

本文旨在研究细胞色素c在后处理抗大鼠肠缺血-再灌注损伤细胞凋亡中的变化。将Sprague-Dawley大鼠32只随机分为4组(n=8):假手术(Sham)组、缺血-再灌注(I/R)组、缺血预处理(IPC)组、缺血后处理(IPOST)组。应用激光共聚焦扫描显微镜检测各组大鼠肠黏膜细胞线粒体跨膜电位的变化。用Western blot方法检测肠黏膜细胞线粒体内细胞色素c及caspase-3表达的变化。末端脱氧核苷酸转移酶介导的dUTP缺口末端标记法(TUNEL)和DNA琼脂糖凝胶电泳方法检测大鼠肠黏膜细胞凋亡发生情况。实验结果显示,与缺血-再灌注组相比,缺血后处理组大鼠肠黏膜细胞线粒体跨膜电位显著升高(P0.05),线粒体内细胞色素c蛋白表达水平显著增加(P0.05),caspase-3蛋白表达降低(P0.05),细胞凋亡率明显降低(P0.05)。缺血后处理组与缺血预处理组相比各项指标差异无统计学意义(P0.05)。上述结果提示缺血后处理可通过阻止线粒体释放细胞色素c抑制凋亡发生,减轻大鼠肠缺血-再灌注损伤。     

不同组织细胞线粒体数量及功能的休克敏感性研究

摘要 目的：探究不同组织细胞线粒体数量及功能的休克敏感性差异。方法：在整体和细胞水平模拟失血性休克和脓毒性休克模型,通过mtDNA检测、线粒体形态分析和线粒体ROS检测观察休克不同时相点肠组织（肠上皮细胞）、血管组织（血管平滑肌细胞）和心肌组织（心肌细胞）中线粒体数量和功能的变化。结果：对于失血性休克（缺氧）刺激,肠组织线粒体数量的休克敏感性明显强于血管和心肌组织（P<0.05）。肠、血管、心肌组织中线粒体数量明显增多分别开始于失血性休克后0.5小时、1小时和2小时。对于脓毒性休克（LPS）刺激,肠组织线粒体数量的休克敏感性明显弱于血管和心肌组织（P<0.05）。肠、血管、心肌组织中线粒体数量明显增多分别开始于脓毒性休克后9小时、6小时和3小时。只有高浓度长时间LPS刺激才会引起肠上皮细胞线粒体数量的明显增高。各组织细胞线粒体功能对各型休克刺激的敏感性和反应程度虽然存在差异,但都晚于线粒体数量异常的发生（P<0.05）。结论：各型休克的组织器官敏感性差异可能与不同组织细胞中线粒体的休克敏感性不同有关。线粒体数量异常增加是引起休克后线粒体损伤和细胞功能障碍的始动环节,不同组织细胞线粒体的休克敏感性差异也是影响休克组织器官损伤差异的重要原因之一。     

The Energy Structure of the Canadian Economy

We developed a model of a national economy in which the phenomena of supply, demand, economic growth, and international trade are represented in terms of energy flows. In examining the structure of the economy, we distinguish between the energy embodied in capital assets used in the production and distribution of energy and that embodied in capital assets and goods that consume energy. Sources used to quantify the energy flows include: end‐use energy data by economic sector; International Energy Agency–style national energy balances, and national input‐output tables. As an example, the Canadian economy for 2008 produced 16.97 exajoules (EJ) of energy, which after net export of 6.16 EJ and other adjustments left a total primary energy consumption of 10.61 EJ. The energy supply and distribution sectors used close to 32% (3.36 EJ) of total primary consumption. Analysis of primary energy consumption shows that 25.14% was embodied in household consumption, 22.85% was consumed directly by households, 7.88% was embodied in government services, and 34.07% was embodied in exports. Of significance to economic growth, 7.14% was embodied in capital in energy demanding sectors, 1.25% in energy consuming personal assets, and 1.52% in supply sector capital. The energy return on energy investment was relatively constant, averaging 5.14 between 1990 and 2008. Capital investments required to decouple the Canadian economy from its dependence on fossil fuels are discerned.     

The efficient learner

The research to be reported examines the concept of efficiency, defined as the relation of metabolic energy expended to mechanical work done. The development of movement coordination was investigated in the context of the hypothesis that an increase in coordination would be accompanied by a parallel reduction in overall energy expenditure, relative to the increase in energy expenditure demanded by improvements in work output. The task involved learning to make cyclical, slalom-like, ski movements on a ski apparatus. Development of coordination was indexed by changes in the timing of forcing while on-line measurements of oxygen consumption were used as indices of energy expenditure. Six female volunteers served as subjects in nine training sessions. The change in the coordination pattern, between the subject and the apparatus, as indexed by the development of the phase lag, was paralleled by an improvement in efficiency. It was concluded that learning the skill used in this study involves a search by the system for perception-action couplings (phase relations in the present study) that require minimal energy expenditure. Received: 22 September 1998 / Accepted in revised form: 20 April 1999     

The effect of growth temperature on the bioenergetics of photosynthetic algal cultures

Two photosynthetic algal cultures, one Chlorella vulgaris, and the other a Chlorogonium sp., were cultured under light limitations in chemostats. The effects of growth temperature on their energy yield and maintenance energy requirement were studied. It was observed that a lowering in temperature resulted in a lower maximum growth yield from the light energy, Y(G). This was attributed to two reasons. First, at low temperatures there was a change in the algal cell composition with more energy being expended to synthesize a higher biomass protein content. Secondly, at low temperatures, a cyanide-resistant respiratory pathway became operative which led to a decrease in the number of ATP being generated. The maintenance energy coefficient was a function of temperature increasing with decreasing temperature. This might reflect energy wastage by the cell at low temperatures. The maximum specific growth rate dropped with decreasing temperature, and can be described by an Arrhenius type rate-temperature model up to the optimal temperature for growth; i.e., activation energy remained constant.     

The time and energy expenditure of indigenous women horticulturalists in the Northwest Amazon

The energy cost of subsistence activities and the daily time and energy budgets of Tatuyo women were assessed as part of a village energy flow study. The Tatuyo are swidden horticulturalists relying on bitter manioc (Manihot esculenta) as a staple crop. Except for the actual felling of new gardens, women are responsible for most of the horticultural work and food preparation. Time budgets were assessed using 24-hour activity diaries. Rates of energy expenditure in typical activities were measured by indirect calorimetry using a Max-Planck respirometer. Daily energy expenditure was calculated using these rates in conjunction with the activity diaries. Rates of energy expenditure in standard activities were moderate and broadly comparable to published values for other populations living in tropical environments. The mean daily energy expenditure was 2,133 kcal (8.9 MJ). This value is similar to that reported for other subsistence horticulturalists and close to the FAO recommendation for energy intake for moderately active individuals.     

辽宁省能源消费和碳排放与经济增长的关系

在广泛收集资料的基础上,对辽宁省的能源利用效率、能源消费强度与经济增长的关系进行探索,其目的为辽宁省的节能与CO2减排及经济的快速发展提供科学依据。结果表明:辽宁整体单位GDP能耗高出全国水平52%—70%,第二产业单位GDP能耗是第三产业的5.67—8.41倍,第一产业的7.2—9.0倍;辽宁能源利用率只有全国平均水平的60%左右,第二产业能源利用效率只有第一产业的11.89%,第三产业的12.60%;GDP年增长速率大于能源消费量年增长速率,能源投入增加促进了国民生产总值的提高,但是经济增长并不是完全依赖能源消费的增长;能源消费量与经济增长的关系,呈现出"N型"曲线特征,随着GDP的增加,能源消费量出现反复上升和下降过程,辽宁省能源消费和经济增长关系没有达到长期的均衡性,尚处于非平衡的发展阶段。     

The functional significance of the browser-grazer dichotomy in African ruminants

The allometric relationships for the fermentation rate of dry matter, the total energy concentration of volatile fatty acids (VFAs), the energy supplied from VFA production and the mass of the digesta contents within the rumen or caecum and proximal colon (hindgut) were used to test whether the digestive strategies of grazing and browsing African ruminants differ. The wet and dry mass of the contents of the rumen and hindgut were allometrically related to body mass (BM). These relationships did not differ between browsing and grazing ruminants. The fermentation rates in the rumen were strongly allometric and the intercepts of the relationships did not differ between browsers and grazers. The fermentation rates in the hindgut were not allometrically related to BM and did not differ between ruminants with different feeding habits. Likewise, the total energy concentration of the VFAs in the rumen and hindgut showed no allometric scaling and did not differ between browsing and grazing ruminants. The energy supplied by VFA production in both the rumen and hindgut of African ruminants scaled at around 0.8 with BM. Only in the case of the energy supplied by VFAs in the rumen were there significantly different intercepts for browsing and grazing ruminants. The energy supplied by VFA production in the rumen was inadequate to meet the energy requirements for maintenance of browsers and small grazers. The retention time of digesta in the alimentary tract was positively related to BM although there was no difference in the allometric relationships for grazers and browsers. The results of these analyses suggest that, after controlling for the effects of body mass, there is little difference in digestive strategy between African ruminants with different morphological adaptations of the gut.     

The Influence of Water Depth on Energy Availability for Ducks

Habitat management and planning strategies for nonbreeding ducks are focused on providing enough energy to support a desired number of individuals. Therefore, regional estimates of energy availability for nonbreeding ducks are required to determine if sufficient habitat exists for them. I used core sampling to estimate food and energy density in 6 types of water bodies (i.e., actively and passively managed emergent wetlands, playas, small and large reservoirs, and sloughs) in northeastern Colorado, USA, during 3 sampling occasions throughout 2 nonbreeding seasons, 2015–2016 and 2016–2017. Also, I used precise depth measurements to estimate the percentage of each site that was shallow enough to facilitate feeding by dabbling ducks as a way to correct overall energy density to reflect availability to ducks. Emergent wetlands contained the greatest food and energy density, followed by playas and sloughs, and reservoirs contained little food or energy. Fall depletion of food was greatest in actively managed emergent wetlands and spring depletion was greatest in sloughs and passively managed emergent wetlands. Mean percentage of passively managed emergent wetlands, actively managed emergent wetlands, small reservoirs, large reservoirs, and sloughs shallower than 50 cm was 37%, 77%, 10%, 4%, and 83%, respectively. Incorporating these estimates into the energetic carrying capacity model developed by the Playa Lakes Joint Venture for eastern Colorado resulted in a 54% decrease in overall duck energy day estimates, which is below what is needed to support population goals. This research identifies the need for additional wetland restoration in eastern Colorado to meet energy requirements of nonbreeding ducks and provides information to conservation planners to make more informed decisions about the extent and location of wetland restoration activities. © 2020 The Authors. The Journal of Wildlife Management published by Wiley Periodicals, Inc. on behalf of The Wildlife Society.     

The seasonal changes in somatic energy content of Gulf of Alaska yellowfin sole, Pleuronectes asper

Seasonal measurement of body energy content was made for Pleuronectes asper (Pallas, 1814) from the Gulf of Alaska. Whole body energy content of complete fish (～ 3472 J g^?1 wet wt) was minimal in May for females as their overwintering phase ended, then increased to ～ 4456 J g^?1 prior to spawning. The ovarian index [(g.w./t.w.) × 100] and energy content of ovaries (J g^?1) was highest in June and May respectively, and then declined markedly by August as spawning occurred. Throughout the year male whole body energy content of complete fish ranged from 3351 to 4590 J g^?1 with the lowest values in May and highest values occurring during June to September, the feeding season. The testes index [(g.w./t.w.) × 100] and total energy content of testes (J g^?1) were high in March and lowest during June and July. On a weight-specific basis, males and females had similar whole body energy values throughout the year. Juveniles followed the same seasonal trends in energy storage as adults and had similar whole body energy values. Whole body energy content was linearly related to wet and dry weight condition factor with r² values of 0.70 and 0.87, respectively. Dry body weight as percent of wet body weight was the best predictor of body energy (r²=0.91). Yellowfin sole had an annual energy cycle with energy accumulation and growth from May to September. Thereafter they utilized stored energy for metabolic and reproductive needs. Spawning began in late May or early June and fish were spent by August. Whole body energy content increased by 28, 33 and 35% between May and June, for females, juveniles, and males, respectively, the most dramatic change during the year long survey. This suggests that intense feeding in May must be an important aspect of their energy storage cycle.     

RNA二级结构预测系统构建

运用下列RNA二级结构预测算法:碱基最大配对方法、Zuker极小化自由能方法、螺旋区最优堆积、螺旋区随机堆积和所有可能组合方法与基于一级螺旋区的RNA二级结构绘图技术, 构建了RNA二级结构预测系统Rnafold. 另外, 通过随机选取20个tRNA序列, 从自由能和三叶草结构两个方面比较了前4种二级结构预测算法, 并运用t检验方法分析了自由能的统计学差别. 从三叶草结构来看, 以随机堆积方法最好, 其次是螺旋区最优堆积方法和Zuker算法, 以碱基最大配对方法最差. 最后, 分析了两种极小化自由能方法之间的差别.