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1.
Plasmodium falciparum encounters frequent environmental challenges during its life cycle which makes productive protein folding immensely challenging for its metastable proteome. To identify the important components of protein folding machinery involved in maintaining P. falciparum proteome, we performed a proteome‐wide phylogenetic profiling across various species. We found that except HSP110, the parasite lost all other cytosolic nucleotide exchange factors essential for regulating HSP70 which is the centrum of the protein folding network. Evolutionary and structural analysis shows that besides its canonical interaction with HSP70, PfHSP110 has acquired sequence insertions for additional dynamic interactions. Molecular co‐evolution profile depicts that the co‐evolving proteins of PfHSP110 belong to distinct pathways like genetic variation, DNA repair, fatty acid biosynthesis, protein modification/trafficking, molecular motions, and apoptosis. These proteins exhibit unique physiochemical properties like large size, high iso‐electric point, low solubility, and antigenicity, hence require PfHSP110 chaperoning to attain functional state. Co‐evolving protein interaction network suggests that PfHSP110 serves as an important hub to coordinate protein quality control, survival, and immune evasion pathways in the parasite. Overall, our findings highlight potential accessory roles of PfHSP110 that may provide survival advantage to the parasite during its lifecycle and febrile conditions. The data also open avenues for experimental validation of auxiliary functions of PfHSP110 and their exploration for design of better antimalarial strategies. Proteins 2015; 83:1513–1525. © 2015 Wiley Periodicals, Inc. 相似文献
2.
How foragers balance risks during foraging is a central focus of optimal foraging studies. While diverse theoretical and empirical work has revealed how foragers should and do manage food and safety from predators, little attention has been given to the risks posed by dangerous prey. This is a potentially important oversight because risk of injury can give rise to foraging costs similar to those arising from the risk of predation, and with similar consequences. Here, we synthesize the literature on how foragers manage risks associated with dangerous prey and adapt previous theory to make the first steps towards a framework for future studies. Though rarely documented, it appears that in some systems predators are frequently injured while hunting and risk of injury can be an important foraging cost. Fitness costs of foraging injuries, which can be fatal, likely vary widely but have rarely been studied and should be the subject of future research. Like other types of risk‐taking behaviour, it appears that there is individual variation in the willingness to take risks, which can be driven by social factors, experience and foraging abilities, or differences in body condition. Because of ongoing modifications to natural communities, including changes in prey availability and relative abundance as well as the introduction of potentially dangerous prey to numerous ecosystems, understanding the prevalence and consequences of hunting dangerous prey should be a priority for behavioural ecologists. 相似文献
3.
Alterations in membrane fluidity are among the early events in plants that detect changes in ambient temperature. However, signal transduction downstream of the membrane-associated processes is still not well understood. We have focused here on the role of hydrogen peroxide (H(2)O(2)) in high-temperature signalling in relation to changes in membrane fluidity in cells of tobacco (Nicotiana tabacum L.) cv. Bright Yellow 2 (BY2). As final indicators of the heat-signalling cascade, we have monitored the synthesis of small heat-shock proteins (sHSPs). Elevation of temperature between 32 and 38 degrees C resulted in a fast, transient stimulation of H(2)O(2) production in the tobacco cells. A similar H(2)O(2) burst could be induced at lower temperatures (28-32 degrees C) by membrane fluidization using benzyl alcohol (BA). Diphenylene iodonium (DPI), a NADPH oxidase inhibitor, prevented both the heat- and BA-triggered H(2)O(2) rise. The synthesis of sHSPs (14.5 and 16 kDa) was shifted to lower temperatures by BA application and was suppressed by DPI treatment in the same way. The results indicate that H(2)O(2) is an early component of the heat-signalling pathway, which responds rapidly to changes in membrane fluidity and is required for the activation of sHSP synthesis. 相似文献
4.
Bruno R. S. Figueiredo Roger P. Mormul Ben B. Chapman Lucas A. Lolis Leandro F. Fiori Evanilde Benedito 《Freshwater Biology》2016,61(3):293-300
- In aquatic systems, many species rely primarily on visual cues to choose optimal foraging sites, capture prey and avoid potential threats. Increases in the turbidity of water reduce visibility and impede animals in determining the precise location of both predators and food. How individuals balance foraging decisions with anti‐predator behaviour in turbid environments is not well understood.
- We tested the effects of turbidity and predation risk on the foraging behaviour and feeding of an invertivorous fish, Moenkhausia forestii (Characidae), using a mesocosm experiment with a 2 × 2 design, crossing water clarity (clear versus turbid) with predation risk as reflected by the presence or absence of the piscivorous wolf‐fish Hoplias aff. malabaricus (Erythrinidae). We predicted that turbidity and predator presence would interact additively to reduce foraging rates, and that increased turbidity or predator presence would result in disproportionate food partitioning among shoal members.
- The combination of high turbidity and predator presence resulted in a significant reduction in prey consumption. Foraging success exhibited a skewed distribution in the turbid treatment, i.e. there was a decreased evenness of food partitioning within shoals. Hence, both turbidity and predator presence affect the prey consumption and foraging behaviour of invertivorous fish, with turbidity amplifying the non‐lethal effects of predation risk on foraging success.
- Our results imply that turbidity‐induced visual obstruction amplifies the negative effects of predator presence on invertivorous fish feeding behaviour, resulting in higher prey survival. Also, our finding that food intake by an intermediate consumer decreased in turbid water with a top predator lends no support to the hypothesis that intermediate consumer fish reduce their anti‐predator behaviour in turbid water.
- From a management perspective, our findings suggest that the oligotrophication of aquatic systems could dramatically increase predation on basal prey organisms naturally adapted to turbid waters, and reduce within‐shoal differences in feeding behaviour.
5.
1. Behavioural adaptations to avoid and evade predators are common. Many studies have investigated population divergence in response to changes in predation regime within species, but studies exploring interspecific patterns are scant. Studies on interspecific divergence can infer common outcomes from evolutionary processes and highlight the role of environmental constraints in shaping species traits. 2. Species of the dragonfly genus Leucorrhinia underwent well‐studied shifts from habitats being dominated by predatory fish (fish lakes) to habitat being dominated by predatory invertebrates (dragonfly lakes). This change in top predators resulted in a set of adaptive trait modifications in response to the different hunting styles of both predator types: whereas predatory fish actively search and pursue prey, invertebrate predator follow a sit‐and‐wait strategy, not pursuing prey. 3. Here it is shown that the habitat shift‐related change in selection regime on larval Leucorrhinia caused species in dragonfly lakes to evolve increased larval foraging and activity, and results suggest that they lost the ability to recognise predatory fish. 4. The results of the present study highlight the impact of predators on behavioural trait diversification with habitat‐specific predation regimes selecting for distinct behavioural expression. 相似文献
6.
M.J. Moran 《Journal of experimental marine biology and ecology》1985,90(2):97-105
As a prerequisite for models of foraging behaviour of the whelk, Morula marginalba Blainville (Muricidae), the effects of variation in density of prey on the rate of feeding of the predator were examined in field conditions for three coexisting species of prey. Densities of prey used were those at which the prey, two limpets and a barnacle, occurred naturally in the rocky intertidal habitat.Large limpets, Cellana tramoserica (Sowerby) can resist attacks by predatory gastropods by raising the mantle over the outside of the shell. These experiments showed that no C. tramoserica were killed by Morula marginalba even at very great densities and with no alternative prey present. For the small limpet Patelloida latistrigata (Angas), one of the whelk's most highly preferred prey, juveniles were eaten 1.4 times as fast as adults. Fitting the random predator equation gave greater attack coefficients and shorter handling times for juvenile than adult limpets.Sizes of both predator and prey affected rates of eating barnacles, Tesseropora rosea (Krauss), but not in a simple way. Whelks of 15-mm aperture length ate adult barnacles 4.2 times faster than did 12-mm whelks, but there was no significant difference in the rates at which the two sizes of snail ate juvenile barnacles.Rates of feeding on T. rosea and Patelloida latistrigata increased significantly with prey density. These results form a basis for including the density of prey in models of spatial dispersion of the predatory gastropod Morula marginalba. 相似文献
7.
Jennifer A. Jost Emily N. Soltis Marshall R. Moyer Sarah S. Keshwani 《Invertebrate Biology》2015,134(3):189-202
Sessile aquatic invertebrates are at great risk for temperature stress. Changes in ambient temperature affect metabolic demands, thus altering energy budgets, and often reducing performance or survival of these species. Zebra mussels are highly invasive, yet little is known about their physiology under biologically relevant conditions, especially with regard to cellular parameters. This study examined the effect of temperature on zebra mussel physiology and investigated whether the levels of two cellular markers, HSP70 and AMPK activity, could serve as indicators of chronic thermal stress. Mussels were collected from a site in central Illinois, slowly acclimated to either 10, 20, or 30°C, and held at these temperatures for four weeks. Size, mortality, and the cellular markers were measured. Size and mortality data indicate heat stress at 30°C. Elevation in HSP70 levels confirmed this temperature elicits a stress response. Elevation in AMPK activity was not detected at 30°C, most likely indicating this temperature is beyond the scope for this marker, and therefore at or near the lethal limit. These data suggest this zebra mussel population experiences reduced performance and potential mortality in the field during summer months. Interestingly, cold acclimation resulted in a temporary elevation in AMPK activity, a result that has not been reported previously in ectotherms and is likely attributable to the metabolic demands of thermal acclimation. 相似文献
8.
Dong Young Kim Kyeong Kyu Kim 《Acta Crystallographica. Section D, Structural Biology》2002,58(1):170-172
HtrA (high‐temperature requirement A) is a widely distributed heat‐shock protein which has both molecular‐chaperone and proteolytic activities. It is composed of two PDZ domains essential for oligomerization and a protease domain. To understand the molecular basis of the dual function of HtrA, the protease domain of T. maritima HtrA has been crystallized. X‐ray diffraction data have been collected to 2.7 Å resolution using a synchrotron‐radiation source. Crystals belong to the cubic space group P213, with unit‐cell parameters a = b = c = 120.55 (8) Å. The asymmetric unit contains two protease domains, with a corresponding VM of 2.80 Å3 Da−1 and a solvent content of 56.1%. 相似文献
9.
Xinguo Qian Zhengang Li Bingdong Sha 《Acta Crystallographica. Section D, Structural Biology》2001,57(5):748-750
Heat‐shock protein 70 (Hsp70) plays essential roles in a number of cellular processes such as protein folding, assembly and translocation. Heat‐shock protein 40 (Hsp40) transiently interacts with Hsp70 and facilitates Hsp70 functions in these processes within cells. Hsp40 recognizes and binds non‐native polypeptide and delivers it to Hsp70. Hsp40 can then stimulate the ATPase activity of Hsp70 to refold the polypeptide. To investigate the molecular mechanism by which Hsp40 interacts with Hsp70 to transport the non‐native polypeptide, Saccharomyces cerevisiae Hsp40 Sis1 C‐terminal peptide‐binding fragment complexed with Hsp70 Ssa1 C‐terminal lid domain has been produced and crystallized. The complex crystals diffract to 3.3 Å and belong to the space group P41212 or P43212, with unit‐cell parameters a = 112.17, c = 171.31 Å. Structure determination by the MAD method is under way. 相似文献
10.
Maartje J. Klapwijk 《Ecology and evolution》2019,9(16):9052-9060
- Natural enemy diversity is thought to be important for effective suppression of herbivores in production systems. Studies investigating the importance of the diversity and composition of the natural enemy complex often use within‐year empirical studies or experimental exclusion setups.
- However, within‐year population suppression might not translate in long‐term population regulation. Therefore, I used a combination of long‐term data collection and an exclusion experiment to investigate mechanisms behind year‐to‐year population changes and potential effects of disturbance of the natural enemy complex.
- Using the holly leaf miner study system in Wytham Woods, I find that the dominant predator in the system does not necessarily contribute the most to the reduction in year‐to‐year changes in mine density or within‐patch fluctuations. Using the exclusion experiment, it becomes clear that parasitism later in the prey life cycle can to a certain level compensate for disruption of mortality in the earlier life stage of the prey.
- Thus, for host suppression in perennial systems the mortality pressure over the whole life cycle is important and disturbance during one part of the life cycle might not necessarily be buffered by mortality in other parts of the life cycle, especially if the natural enemy complex consists of multiple predator guilds.
11.
MATEUS R. ANDRADE DANIEL ALBENY‐SIMÕES JENNIFER A. BREAUX STEVEN A. JULIANO ERALDO LIMA 《Ecological Entomology》2017,42(1):77-85
1. Prey organisms can perceive cues to predation hazard and adopt low‐risk behaviours to increase survival. Animals with complex life cycles, such as insects, can exhibit such anti‐predatory behaviours in multiple life stages. 2. Cues to predation risk may induce ovipositing females to choose habitats with low predation risk. Cues to predation risk may also induce larvae to adopt facultative behaviours that reduce risk of predation. 3. One hypothesis postulates that anti‐predation behaviours across adult and larval stages may be negatively associated because selection for effective anti‐predator behaviour in one stage leads to reduced selection for avoidance of predators in other stages. An alternative hypothesis suggests that selection by predation favours multi‐component defences, with both avoidance of oviposition and facultative adoption of low‐risk behaviours by larvae. 4. Laboratory and field experiments were used to determine whether defensive responses of adult and larval mosquitoes are positively or negatively associated. The study tested effects of waterborne cues from predatory Toxorhynchites theobaldi on oviposition choices and larval behaviours of three of its common prey: Culex mollis, Limatus durhamii and Aedes albopictus. 5. Culex mollis shows strong anti‐predator responses in both life stages, consistent with the hypothesis of a multi‐component behavioural defence. The other two species showed no detectable responses to waterborne predator cues in either adult or larval stages. Larvae of these unresponsive species were significantly more vulnerable to this predator than was C. mollis. 6. For these mosquitoes, species appear either to have been selected for multi‐component defences against predation or to act in ways that could be called predator‐naïve. 相似文献
12.
Escherichia coli Hsp100 ClpB plays critical roles in multi‐chaperone systems in cell physiology. After being activated by protein or peptide binding, ClpB disaggregates denatured polypeptides by employing ATP hydrolysis and allows other molecular chaperones such as Hsp70 DnaK and Hsp40 DnaJ to refold the non‐native polypeptides. ClpB contains two nucleotide‐binding domains with Walker A and B motifs within their primary sequences. Therefore, ClpB can be classified as a member of the large ATPase family known as ATPases associated with various cellular activities (AAAs). The mechanisms by which the ClpB acts as a molecular chaperone to disaggregate denatured polypeptides are unknown. To investigate how the nucleotide‐binding domain participates in ClpB chaperone activity, we have cloned and crystallized ClpB nucleotide‐binding domain 1 (NBD1). The ClpB NBD1 crystals diffract to 1.80 Å using a synchrotron X‐ray source and belong to the space group P212121, with unit‐cell parameters a = 38.41, b = 65.48, c = 79.13 Å. Structure determination by the MAD method is under way. 相似文献
13.
ALESSANDRO BALESTRIERI LUIGI REMONTI PAOLO VEZZA CLAUDIO PRIGIONI GORDON H. COPP 《Freshwater Biology》2013,58(5):995-1007
1. Biological invasions are considered a major threat to biodiversity. Most research has focused on the distribution, biology and impacts of non‐native species on native fauna and flora. However, few studies have explored their role as prey for native predators of conservation concern. 2. To assess the incidence and intensity of predation by the Eurasian otter Lutra lutra on established non‐native fish species, data were collated from the published literature. To be selected, studies had to cover at least 1 year, analyse more than 100 spraints and report the study period and percentage relative frequency (%RF) of all prey fish species. 3. To permit reliable, time‐related comparisons with %RF of non‐native fishes in otter diet, we also reviewed available information about both the distribution of non‐native fishes and history of their introductions to European countries, revealing a decrease with longitude in the number of naturalised non‐native fishes taken (ranging between 5 and 34) and their percentage in each fish assemblage. 4. Our selective criteria were met by 30 dietary studies from 44 study areas in 15 European countries during 1970–2010. The extent to which otters rely on non‐native fishes was almost negligible (mean %RF = 4.8), with the number of non‐native fishes preyed upon by otters decreasing with both latitude and longitude. 5. The %RF of non‐native fish in the diet increased slightly with time, with otters preying significantly more on non‐native fish in study areas where alterations of the fish assemblage had been highlighted in the reference papers. No relationship was found between otter diet breadth and the occurrence of non‐native fishes in their diet. 6. The current role of non‐native species in otter diet suggests that effective otter conservation management plans should focus on the maintenance and/or enhancement of native fish assemblages. 相似文献
14.
The feeding behaviour of the Talek clan of spotted hyaenas in the Masai Mara National Reserve, Kenya, was monitored continuously for 7 years. Talek hyaenas adapted to large temporal variations in prey abundance by being opportunistic predators. During the first half of the year, the hyaenas fed on resident ungulates, and their diet consisted mainly of topi and Thomson's gazelles. Upon arrival of the migratory herds of wildebeest and zebra from the Serengeti, Talek hyaenas switched to feeding on the wildebeest which provided them with a superabundance of food for about 3 months. After the migratory animals returned to the Serengeti, Talek hyaenas experienced a period of reduced prey abundance due to the temporary dispersion of resident ungulates. At this time hyaenas hunted the few remaining wildebeest, and also increased their use of the remaining resident animals. Although Talek hyaenas were generally opportunistic in their feeding behaviour, they did exhibit clear dietary preference for larger prey species, particularly wildebeest. Finally, carrion comprised only 5% of the biomass consumed by Talek hyaenas, the lowest proportion of carrion in the diet of any Crocuta population studied to date. 相似文献
15.
Yurii V. Kornilev Nikolay D. Natchev Harvey B. Lillywhite 《Biological reviews of the Cambridge Philosophical Society》2023,98(1):263-283
The advanced snakes (Alethinophidia) include the extant snakes with a highly evolved head morphology providing increased gape and jaw flexibility. Along with other physiological and morphological adaptations, this allows them to immobilize, ingest, and transport prey that may be disproportionately large or presents danger to the predator from bites, teeth, horns, or spines. Reported incidents of snakes failing to consume prey and being injured or killed during feeding mostly reflect information in the form of natural-history notes. Here we provide the first extensive review of such incidents, including 101 publications describing at least 143 cases of mortality (including six of ‘multiple individuals’) caused by ingestion or attempted consumption of injurious prey. We also report on 15 previously unpublished injurious feeding incidents from the USA, Austria, and Bulgaria, including mortality of five juvenile piscivorous dice snakes (Natrix tessellata) from a single location. Occurrences are spread across taxa, with mortality documented for at least 73 species from eight families and 45 genera. Incidents were generally well represented within each of three major categories: oversized prey (40.6%), potentially harmful prey (40.6%), and predator's behavioural/mechanical errors (18.9%). Reptile (33%) and fish (26%) prey caused disproportionately high mortality compared to mammals (16%). Feeding can be dangerous throughout a snake's life, with the later stages of feeding likely being more perilous. The number of reports has increased over time, and the data seem biased towards localities with a higher number of field-working herpetologists. We propose a standardized framework, comprising a set of basic information that should ideally be collected and published, and which could be useful as a template for future data collection, reporting, and analyses. We conclude that incidents of mortality during feeding are likely to be more common than previously assumed, and this hypothesis has implications for the ecology of persistence where populations are impacted by changing trophic environments. 相似文献
16.
The acute heat-shock response of the tropical estuarine fish species barramundi Lates calcarifer as indicated by the expression of genes within stress (hsp 90AA, hsp 90AB, hsp 70 and hsc 70), metabolic (cisy, cco II and ldh) and growth (igf1 and mstn 1) related pathways was examined following an increase in water temperature from 28 to 36° C over 30 min. Lates calcarifer were maintained at the acute stress temperature of 36° C for 1 h before being returned to 28° C and allowed to recover at this temperature for a further 2 weeks. Muscle tissue sampling over the experimental period allowed for the expression quantification of stress, metabolic and growth-related genes via quantitative real-time polymerase chain reaction (qrt-PCR) where a robust and reliable normalization approach identified both α-tub and Rpl8 as appropriate genes for the analysis of gene expression in response to an acute heat stress. hsp90AA and hsp70 of the inducible heat-shock response pathway showed a massive up-regulation of gene expression in response to heat stress, whilst the constitutive heat-shock genes hsp90AB and hsp70 showed no change over the course of the experiment and a small increase after 2 weeks of recovery, respectively. Of the three genes representing the metabolic pathway (cisy, cco II and ldh) only cco II changed significantly showing a decrease in gene expression, which may suggest a small suppression of aerobic metabolism. igf1 of the growth pathway showed no significant differences in response to an acute heat stress, whilst mstn1 increased at the beginning of the heat stress but returned to basal levels soon after. Overall, the results demonstrate that an acute heat stress in L. calcarifer caused a significant increase in the expression of genes from the stress response pathway and a possible decrease in aerobic metabolism with only relatively minor changes to the growth pathway highlighting the hardy nature of L. calcarifer and its resilience in coping with sudden temperature changes routinely encountered within its natural environment. 相似文献
17.
曾卫军;原慧;覃建兵 《植物研究》2012,32(6):744-749
小分子热激蛋白是植物受到热胁迫后的主要表达产物之一,与植物细胞耐热有密切关系。该研究发现,拟南芥小分子热激蛋白基因AtsHsp17.6-CⅠ和AtsHsp17.6-CⅡ 除热激之外,重金属离子Ni+、Pb2+、Cu2+、Zn2+和Al3+均能诱导这2个热激蛋白基因的表达;氧化胁迫和渗透胁迫同样也能诱导它们表达。该研究将由CaMV35S启动子驱动的这2个小分子热激蛋白基因导入拟南芥,RT-PCR分析表明,2个小分子热激蛋白基因在转基因植物中呈现组成型表达。实验结果表明,组成型表达小分子热激蛋白基因AtsHsp17.6-CⅠ的转基因植物表现出对6 μmol·L-1 Cd2+胁迫、0.4% NaCl胁迫的耐受性。研究表明,这2个小分子热激蛋白基因可能参与着多种抗逆途径,推测其能够减轻或抵抗逆境胁迫引起的伤害并对其进行修复。 相似文献
18.
Lindström L Ahtiainen JJ Mappes J Kotiaho JS Lyytinen A Alatalo RV 《Journal of evolutionary biology》2006,19(2):649-656
Predation is considered as an important factor constraining the expression of sexual signals. Nevertheless, direct quantitative evidence for predation provoking significant viability costs on individuals signalling at high rates is scarce. Moreover, it is unclear whether high rate signallers are able to balance presumably increased predation costs. We examined whether a condition dependent audible sexual signal, drumming, makes Hygrolycosa rubrofasciata male spiders more prone to predation by pied flycatchers (Ficedula hypoleuca), and whether sexual signalling rate is related to escaping ability once attacked. When birds were given a choice between two spider males manipulated to drum either one or three bouts per minute using playbacks, naïve birds attacked the males randomly regardless of the drumming rate. However, experienced birds chose significantly more often the males with high signalling rate. When spiders were allowed to escape, males with high sexual signalling rate tended to be better at escaping attacks than males with low sexual signalling rate. This study provides evidence that high signalling rate increases the risk of predation, but simultaneously males with high mobility, which correlates positively with signalling rate seemed to be better at compensating this cost. 相似文献
19.
Juvenile common carp Cyprinus carpio were collected from 10 lakes with variable predator abundance over 4 months to evaluate if morphological defences increased with increasing predation risk. Cyprinus carpio dorsal and pectoral spines were longer and body depth was deeper when predators were more abundant, with differences becoming more pronounced from July to October. To determine if morphological plasticity successfully reduced predation risk, prey selection of largemouth bass Micropterus salmoides foraging on deep- and shallow-bodied C. carpio was evaluated in open and vegetated environments. Predators typically selected deep- over shallow-bodied phenotypes in open habitats and neutrally selected both phenotypes in vegetated habitats. When exposed to predators, shallow-bodied C. carpio phenotypes shoaled in open habitat, whereas deep-bodied phenotypes occupied vegetation. Although deep-bodied phenotypes required additional handling time, shallow-bodied phenotypes were more difficult to capture. These results suggest that juvenile C. carpio gradually develop deeper bodies and larger spines as predation risk increases. Morphological defences made it more difficult for predators to consume these prey but resulted in higher vulnerability to predation in some instances. 相似文献