Inhibition of the accumulation of viral polypeptides in the densonucleosis virus-infected midgut of the silkworm,Bombyx mori,reared at a supraoptimal temperature

Effect of a supraoptimal temperature on the accumulation of viral polypeptides in the midgut was examined by immunoblot analysis in the larvae of the silkworm, Bombyx mori, infected with Bombyx densonucleosis virus type 2. In the larvae reared continuously at 25°C, viral polypeptides were first detected in the midgut at 2 days postinfection (pi) and in the feces at 4 days pi. When the larvae inoculated per os with the virus for 24 hr at 25°C were immediately shifted to 35°C, there were no detectable viral polypeptides in both the midgut and feces throughout the experiment. In the infected larvae shifted from 25° to 35°C at 48 hr pi, viral polypeptides preexisting in the midgut decreased to an undetectable level within 48 hr after the temperature shift, and no viral polypeptides were detected thereafter. Viral polypeptides in the feces of these larvae became detectable at 48 hr (4 days pi) after the temperature shift, as in the larvae at 25°C, and disappeared by 96 hr (6 days pi). These results indicate that a supraoptimal temperature inhibits accumulation of viral polypeptides in the midgut. It is likely that inhibited production of viral polypeptides rather than enhanced discharge of the infected midgut cells is responsible for the inhibited accumulation of viral polypeptides in the midgut at 35°C.     

Platelet-derived growth factor-modulated translatable mRNAs.

The treatment of density-arrested BALB/c 3T3 cells with electrophoretically homogeneous or highly purified preparations of the platelet-derived growth factor (PDGF) stimulated the rapid and selective accumulation of several species of abundant mRNA identified by cell-free translation. These translatable mRNAs appeared long before entry into the S phase. Less PDGF was required for selective mRNA accumulation than for PDGF-modulated DNA synthesis. The translatable mRNAs also accumulated after addition of the epidermal growth factor but not after addition of insulin or platelet-poor plasma. Their selective accumulation was blocked by addition of actinomycin D. Three classes of PDGF-modulated mRNAs were defined. An early (primary) RNA appeared within 30 to 60 min of PDGF addition; its accumulation was not blocked by cycloheximide. Another early mRNA also appeared within 60 min, but treatment with both PDGF and cycloheximide was required for optimal accumulation. A third class, secondary RNAs, began to accumulate later at 90 to 120 min; the appearance of this class was inhibited by cycloheximide. One- and two-dimensional gel electrophoresis of translation products demonstrated that a spontaneously transformed BALB/c 3T3 (ST2-3T3) cell line, which does not require PDGF or epidermal growth factor for growth, constitutively accumulated the secondary growth factor-regulated mRNAs. The accumulation of these translatable mRNAs may be required for PDGF-modulated DNA synthesis.     

Factors affecting the development of Dipylidium caninum in Ctenocephalides felis felis (Bouché, 1835)

Ctenocephalides felis felis larvae were infected with Dipylidium caninum at a range of temperatures from 20 degrees - 35 degrees C at 3 mm Hg saturation deficit (SD) and 30 degrees C at 8 mm Hg SD. Hosts were subsequently dissected at 6, 9 and 12 days after infection. Four replicate experiments were performed and results of development, and host reactions analysed by the Genstat computer programme. These were found to depend on the temperature and saturation deficit of the environment. Unlike previous findings, parasite development and host reaction were found to be independent of host development. Host reaction was more marked and prolonged at 20 degrees - 25 degrees C than at higher temperatures. No perceptible growth of the parasite occurred at 20 degrees C. The development patterns of growth at the higher temperatures were similar but shifted in time so that faster growth occurred at higher temperatures. Rate of growth was fastest at 35 degrees C, despite the fact that this temperature was unfavourable to the hosts, all of which died at the time of pupation.     

Heat shock induced changes of plant cell ultrastructure and autoradiographic localization of heat shock proteins

Treating tomato cell cultures and leaves by a physiological heat shock (hs) at 35 to 39 degrees C results in a progressive disintegration of the nucleolus and the assembly of cytoplasmic hs granules. Other ultrastructural changes are not observed. The alterations of the nucleoli coincide with an immediate stop of the processing and with a strongly decreased synthesis of pre-rRNA. Both hs effects are reversed after shift-down to normal temperature conditions (25 degrees C). Assembly of cytoplasmic hs granules depends on the accumulation of the newly forming hs proteins and on supraoptimal temperatures. It is not observed in preinduced cultures synthesizing hs proteins at 25 degrees C. Autoradiographic studies reveal the preferential accumulation of hsp in the nucleoli and hs granules. Furthermore uridine labeling points to the presence of RNA in electron dense particles of both subcellular components. A survey on the state of hsp synthesis and structural binding as well as on the ultrastructural changes is given for 12 selected hs regimes.     

Examination of heat shock protein mRNA accumulation in early Xenopus laevis embryos

Elevation of the incubation temperature of Xenopus laevis neurulae from 22 to 33-35 degrees C induced the accumulation of heat shock protein (hsp) 70 mRNA (2.7 kilobases (kb)) and a putative hsp 87 mRNA (3.2 kb). While constitutive levels of both hsp mRNAs were detectable in unfertilized eggs and cleavage-stage embryos, heat-induced accumulation was not observed until after the mid-blastula stage. Exposure of Xenopus laevis embryos to other stressors, such as sodium arsenite or ethanol, also induced a developmental stage-dependent accumulation of hsp 70 mRNA. To characterize the effect of temperature on hsp 70 mRNA induction, neurulae were exposed to a range of temperatures (27-37 degrees C) for 1 h. Heat-induced hsp 70 mRNA accumulation was first detectable at 27 degrees C, with relatively greater levels at 30-35 degrees C and lower levels at 37 degrees C. A more complex effect of temperature on hsp 70 mRNA accumulation was observed in a series of time course experiments. While continuous exposure of neurulae to heat shock (27-35 degrees C) induced a transient accumulation of hsp 70 mRNA, the temporal pattern of hsp 70 mRNA accumulation was temperature dependent. Exposure of embryos to 33-35 degrees C induced maximum relative levels of hsp 70 mRNA within 1-1.5 h, while at 30 and 27 degrees C peak hsp 70 mRNA accumulation occurred at 3 and 12 h, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of high temperature on the hemocyte cell cycle in silkworm larvae

To understand the inhibitory effects of high temperature on insect growth at the cellular level, we investigated the influence of high temperature on the proliferation and division of larval hemocytes in the silkworm, Bombyx mori. Although the total number of hemocytes in the larval body increased enormously over time at 26 degrees C, no increase was observed at 38 degrees C. The number of mitotic hemocytes in circulation increased between days 1 and 2 of the fourth larval stage at 26 degrees C, whereas fewer hemocytes were observed at 38 degrees C. Laser scanning cytometry revealed that the DNA content of hemocytes collected from the fourth-stadium larvae was predominantly 2C, 4C, and 8C, and the proportion of each type of hemocyte changed dynamically with development during the fourth instar. Specifically, the proportion of hemocytes with a higher DNA content increased gradually during the feeding phase then decreased during the molting phase at 26 degrees C; in contrast, no decrease was observed at 38 degrees C. The heat-induced accumulation of 8C hemocytes was mainly detected in granulocytes and plasmatocytes. These data suggest that high temperatures induce a G(2) arrest in larval hemocytes.     

Selective inhibition of translation of the mRNA coding for measles virus membrane protein at elevated temperatures.

The elevation of culture temperatures of C6 cells that were persistently infected with the Lec strain of the subacute sclerosing panencephalitis (SSPE) virus (C6/SSPE) resulted in immediate selective inhibition of membrane (M) protein synthesis. This phenomenon was confirmed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of total cytoplasmic lysates and immunoprecipitation with monoclonal antibody against the M protein in short-time labeling experiments. The synthesis of various viral mRNAs in the presence of actinomycin D decreased gradually at similar rates after a shift to 39 degrees C. No specific disappearance of the mRNA coding for the M protein was observed when viral RNAs isolated from the infected cells were compared before and after a shift up by Northern blot analysis. Results of pulse-chase experiments did not show any significant difference in M protein stability between 35 and 39 degrees C. This rapid block of M protein synthesis was observed not only in Vero cells that were lytically infected with plaque-purified clones from the Lec strain, clones isolated from C6/SSPE cells and the standard Edmonston strain of measles virus but also in CV1, MA160, and HeLa cells that were lytically infected with the Edmonston strain. Poly(A)+ RNAs that were extracted from C6/SSPE cells before and after a shift to 39 degrees C produced detectable phospho, nucleocapsid, and M proteins in cell-free translation systems at 32 degrees C. Even higher incubation temperatures did not demonstrate the selective depression of M protein synthesis described above in vitro. All these data indicate that M protein synthesis of measles virus is selectively suppressed at elevated temperatures because of an inability of the translation apparatus to interact with the M protein-encoded mRNA.     

Effect of high temperature on the development of nuclear polyhedrosis virus in the silkworm,Bombyx mori

Effect of a high temperature on the development of nuclear polyhedrosis and nuclear polyhedrosis virus (NPV) was studied employing pupae and isolated pupal abdomens of the silkworm, Bombyx mori. It was shown that pupae inoculated with an NPV and incubated at 35°C survived longer than those incubated at 25°C. At lower dosages of virus, pupae at 35°C escaped death from NPV. When inoculated pupae were incubated at 35°C for varying periods and then transferred to 25°C, the longer the pupae had been kept at 35°C the longer they survived. In contrast, when inoculated pupae were transferred from 25° to 35°C, the longer the pupae had been kept at 25°C the sooner after inoculation they died. Essentially the same results were obtained in isolated abdomens which were in an arrested state of development, excluding the possibility that observed thermal inhibition of viral diseases is dependent upon the altered developmental processes at high temperatures. Virus titration experiments showed that, under experimental conditions utilized, no detectable accumulation of infectious NPV was present in abdomens inoculated with an NPV and incubated at 35°C. When inoculated abdomens were shifted up from 25° to 35°C at 3 days postinoculation, NPV accumulation was inhibited almost immediately, and when inoculated abdomens were shifted down from 35° to 25°C, infectious NPV started to accumulate as early as 1 day after the shift. It was also shown that the pattern of infectious NPV accumulation and that of nucleic acid increase in infected abdomens gave a rough correlation. These results indicate that the thermal inhibition of viral diseases is attributed, at least in part, to the restricted accumulation of infectious progeny and suggest that the virus replication mechanism itself is more sensitive to high temperatures than that related to other events necessary for viral replication to be initiated.     

Genetic analysis of murine hepatitis virus strain JHM.

We performed a genetic analysis of 37 temperature-sensitive mutants of murine hepatitis virus strain JHM. Of our mutants, 32 did not induce murine hepatitis virus-specific RNA synthesis in infected cells at the restrictive temperature, 39 degrees C. By complementation testing we have identified at least seven nonoverlapping complementation groups. Six of the genes identified in this way are required for murine hepatitis virus-specific RNA synthesis. The seventh complementation group is made up of five mutants which induced virus-specific RNA synthesis at 39 degrees C.     

Stress-induced accumulation of glycerol in the flesh fly, Sarcophaga bullata: evidence indicating anti-desiccant and cryoprotectant functions of this polyol and a role for the brain in coordinating the response

Nondiapausing larvae of the flesh fly, Sarcophaga bullata, responded to several forms of short-term environmental stress (low temperature, anoxia and desiccation) by accumulating glycerol. Elevation of this polyol, regardless of the type of stress that induced accumulation, conferred cold resistance: larvae with high glycerol levels were 3-4 times more tolerant of a 2h exposure to -10 degrees C than unstressed larvae. Protection against low temperature injury, as well as dehydration, was also attained by injection of exogenous glycerol into third instar larvae. This artificially induced cold hardiness was only temporary: when glycerol-injected larvae were exposed to -10 degrees C immediately after injection, survival was high, but none survived if they were injected and then held at 25 degrees C for 2 days before the -10 degrees C exposure. Larvae ligated behind the brain immediately after low temperature exposure failed to accumulate glycerol, but glycerol did accumulate in larvae ligated 6-24h after cold treatment, thus implying a critical role for the brain in initiating glycerol production. Interestingly, a much shorter exposure (2h) to low temperature was sufficient to reduce the maximum rate of water loss. Collectively, these observations suggest that multiple pathways may be exploited in response to stress: one pathway is most likely associated with rapid cold hardening (RCH) which generates immediate protection, and a second pathway remains activated for a longer period to enhance the initial protection afforded by glycerol.     

不同温度下斜纹夜蛾感染核型多角体病毒的流行病模型及模拟

研究了温度对斜纹夜蛾核型多角体病毒病流行的影响.结果表明,温度在29 ℃以上时,感病幼虫大多在2～3 d开始死亡,4～5 d达到高峰.随着温度的升高,感病幼虫病死率增加,病死速度加快.在试验温度范围内,未发现该病毒的热抑制温度,但感病幼虫死亡速率存在恒定温区,在29～35 ℃之间.感病幼虫的每日病死率可用互补重对数模型较好地拟合,累计病死时间分布可用Gompertz模型拟合,生物物理模型经改进后可很好地描述幼虫病死速率与温度的关系,可用于模拟分析不同温度下的幼虫病死时间分布和幼虫病死速率.     

Control of protein synthesis by a temperature-sensitive mutant of reovirus 3. I. Temperature-sensitive function of ts261-b mutant.

The ability of a temperature-sensitive (ts) mutant of reovirus, ts261-b, to synthesize virus-specific RNAs and proteins during infection at the nonpermissive temperature (37 degrees C) was investigated. The relative amounts of the mutant virus-specific single-stranded (ss) RNA''s and double-stranded (ds) RNA''s synthesized in cells at 37 degrees C were 20 to 25% as much as those synthesized in the wild-type virus-infected cells. The 10 segments of the mutant ds RNAs and the three size classes of the ss RNAs were synthesized in the usual proportions. The methylation of the mutant viral mRNA''s (ss RNAs) was not blocked at 37 degrees C in infected cells. A striking temperature-sensitive restricted function of the ts261-b mutant was expressed in the synthesis of the viral proteins. This study, which uses an in vitro protein-synthesizing system reconstituted with an endogenous polysomal fraction and a postribosomal supernatant from reovirus-infected cells, has demonstrated that the endogenous polysomes obtained from ts261-b mutant-infected cells at 37 degrees C are not active in the synthesis of the viral polypeptides of known molecular weights, and the amounts of the mutant viral polypeptides synthesized in vitro by these polysomes are 5 to 9% of those synthesized by the corresponding fraction from wild-type-infected cells. The impaired protein-synthesizing capacity of the mutant virus-specific polysomes can be restored during maintenance of the infected cells at 30 degrees C after shift-down from 37 degrees C. The in vitro synthesis of viral polypeptides of known size by the active endogenous polysomes derived from cells infected at the permissive temperature is accelerated by the addition of the postribosomal supernatant obtained from cells infected at the permissive temperature. The postribosomal supernatant from mutant-infected cells at 37 degrees C did not have a stimulatory effect, but rather, it inhibited in vitro viral protein synthesis.     

Rapid and reversible reduction of junctional permeability in cells infected with a temperature-sensitive mutant of avian sarcoma virus

The transformed or normal phenotype of cultured normal rat kidney cells infected with a temperature-sensitive mutant of avian sarcoma virus is conditional on the temperature at which the cells are grown. Using dye injection techniques, we show that junction-mediated dye transfer is also temperature-sensitive. The extent and rate of transfer between infected cells grown at the transformation-permissive temperature (35 degrees C) is significantly reduced when compared to infected cells grown at the nonpermissive temperature (40.5 degrees C) or uninfected cells grown at either temperature. Infected cells subjected to reciprocal temperature shifts express rapid and reversible alterations of dye transfer capacities, with responses evident by 15 min and completed by 60 min for temperature shifts in either direction. These results suggest that altered junctional capacities may be fundamental to the expression of the ASV-induced, transformed phenotype.     

环境条件诱导的家蚕滞育系与非滞育系中游离核苷酸的动态变化

家蚕二化性品种卵的滞育性是由亲代卵胚胎期接受的环境条件决定。在生物体中,ATP和UTP不仅是遗传物质的原料和能量物质,也是重要的信号分子,它们作为神经递质可以激活许多生理过程。本研究利用高压液相色谱(HPLC)检测了家蚕二化性品种大造刚孵化幼虫和终龄幼虫的游离核苷酸的含量。结果表明,预定次代产滞育卵[亲代卵高温(25℃)光照]比预定次代产非滞育卵[亲代卵低温(15℃)黑暗]的刚孵化幼虫整体特别是头部ATP和UTP含量高,并达到显著水平,随着发育到上簇阶段,这种差异显著增加。这些结果暗示,家蚕体内特别是头部游离核苷酸与由环境诱导的家蚕卵滞育性有关,为进一步研究家蚕脑对环境条件的接受、保持的机制提供了一条重要途径。     

The effects of temperature, diet, and other factors on development, survivorship, and oviposition of Aethina tumida (Coleoptera: Nitidulidae)

Developmental rate and survivorship of small hive beetle, Aethina tumida Murray (Coleoptera: Nitidulidae), life stages were measured across different temperatures (21, 25, 28, 32 and 35 degrees C) and diets, which included natural and artificial pollen, honey, and bee pupae. Temperature affected hatch success, time to hatching, and larval growth. Eggs hatched in 61 h at 21 degrees C but in < 22 h at 35 degrees C. Larvae achieved peak weight in < 8 d at 35 degrees C but needed 17 d at 21 degrees C. Diet had comparatively little effect on larval survivorship or maximum weight, although larvae fed only bee pupae had lower survivorship. Access to soil influenced pupation success. Duration of the life stage spent in the soil, during which pupation occurs, was also affected by temperature: adults emerged after 32.7 d at 21 degrees C but after only 14.8 d at 35 degrees C, albeit with high mortality. Minimum temperature for development was estimated at 13.5 degrees C for eggs, and 10.0 degrees C for larvae and pupae. Temperature influenced adult longevity and oviposition: on a honey and pollen diet average adult lifespan was 92.8 d at 24 degrees C but only 11.6 d at 35 degrees C. Beetles lived longer at 28 degrees C or lower but produced the most eggs per female, regardless of diet, at 32 degrees C. Beetle density influenced fecundity: beetles kept at three pairs per vial laid 6.7 times more eggs per female than those kept as single pairs. Overall, beetles fared best at 28-32 degrees C with mortality of all stages highest at 35 degrees C.     

Influence of temperature on developmental parameters of the parasite/host system Edhazardia aedis (Microsporida: Amblyosporidae) and Aedes aegypti (Diptera: Culicidae).

Larvae of Aedes aegypti, transovarially infected with Edhazardia aedis, were reared between 20 and 36 degrees C to determine the influence of temperature on the development of the parasite and the infected host. Development of the parasite was evaluated based on spore yield and size. The predicted optimum temperature for maximum spore production of E. aedis in A. aegypti was 30.8 degrees C. The results demonstrate that the E. aedis-A. aegypti system has a wide temperature tolerance; whereas spore yield will be lower at unfavorable temperatures, the host will remain infected. Additionally, spores were significantly smaller from individual reared at 34 degrees C than those reared at either 20 or 27 degrees C. Development of the infected host was evaluated based on pupal weight and time of pupation. Infected pupae were significantly larger than uninfected pupae. There was also a significant difference in the pupation rate between controls and infected A. aegypti larvae. Controls had a 50% cumulative pupation time (CPT50) of 65.7 degree days and infected individuals a CPT50 of 76.6 degree days.     

Induction of polyunsaturated fatty-acid synthesis enhances tolerance of a cyanobacterium, Cylindrospermopsis raciborskii, to low-temperature photoinhibition

Acyl-lipid desaturation introduces double bonds (unsaturated bonds) at specifically defined positions of fatty acids that are esterified to the glycerol backbone of membrane glycerolipids. Desaturation pattern of the glycerolipids of Cylindrospermopsis raciborskii (C. raciborskii), a filamentous cyanobacterial strain, was determined in cells grown at 35 degrees C and 25 degrees C. The lowering of the growth temperature from 35 degrees C to 25 degrees C resulted in a considerable accumulation of polyunsaturated octadecanoic fatty acids in all lipid classes. Lipid unsaturation of C. raciborskii was also compared to Synechocystis PCC6803. In C. raciborskii cells, a shift in growth temperature induced a much more pronounced alteration in the desaturation pattern of all lipid classes than in Synechocystis PCC6803. The tolerance to low-temperature photoinhibition of the C. raciborskii cells grown at 25 degrees C and 35 degrees C was also compared to the tolerance of Synechocystis cells grown at the same temperatures. Lower growth temperature increased the tolerance of C. raciborskii cells but not that of Synechocystis cells. These results strengthen the importance of polyunsaturated glycerolipids in the tolerance to environmental stresses and may give a physiological explanation for the determinative role of C. raciborskii strain in algal blooming in the Lake Balaton (Hungary).