The influence of culture temperature on in vitro maturation of bovine oocytes

Bovine oocytes removed from 2–6-mm follicles were matured in vitro for 20 h at 33, 35, 37, 38 and 39°C. Evaluation criteria of oocyte maturity included nuclear maturation and the fluorescein diacetate (FDA) viability test. The percentage of oocytes in metaphase II increased from 2.8% at 33°C to 56.1% at 35°C and approximately 73% at 37–39°C.All control ova (i.e. matured in vivo and collected just after ovulation) evaluated using the FDA test showed very bright and uniform fluorescence within cells. The highest accumulation of intracellular fluorescein in cultured oocytes was observed at 35°C; fluorescein accumulation decreased proportionally to increased culture temperatures.     

Growth at 37°C of the EGs strain of the amoeboflagellate Naegleria gruberi containing viruslike particles. II. Cytoplasmic changes

The EG_s strain of the amoeboflagellate Naegleria gruberi contains viruslike particles (VLP) apparently responsible for the development of cytoplasmic structures in infected cells. Growth of amoebae at 37°C produced changes in the normal pattern of development of the cytoplasmic units. Structures referred to as bacterium-like bodies, which developed in infected amoebae grown at 21°C, did not form at the elevated temperature. Amoeba cytoplasm at the elevated temperature exhibited regions of varying densities and bundles of microtubule-like fibrils. Presumed transmissive stages which were seen in cells grown at 21°C were not formed at 37°C. These changes are of significance in that they parallel cytoplasmic changes in cytopathic chick embryo fibroblasts exposed to lysates made from VLP-infected cultures of amoebae.     

Differential responses of bovine oocytes and preimplantation embryos to heat shock

The authors sought to determine whether developmental differences in the magnitude of embryonic mortality caused by heat stress in vivo are caused by changes in resistance of embryos to elevated temperature. In this regard, responses of oocytes, two-cell embryos, four- to eight-cell embryos, and compacted morulae to heat shock were compared. An additional goal was to define further the role of cumulus cells and glutathione in thermoprotection of oocytes. In experiment 1, heat shock (41°C for 12 hr) decreased the number of embryos developing to the blastocyst stage for two-cell (26% vs. 0%) and four- to eight-cell (25% vs. 10%) embryos but did not affect morulae (37% vs. 42%). In experiment 2, exposure of two-cell embryos to 41°C for 12 hr reduced the number of four- to eight-cell embryos present 24 hr after the end of heat shock (88% vs. 62%). In experiment 3, heat shock reduced the number of two-cell embryos developing to blastocyst (49% vs. 8%) but did not affect subsequent development of oocytes when heat shock occurred during the first 12 hr of maturation (46% vs. 41% development to blastocyst); membrane integrity was not altered. In experiment 4, oocytes were cultured with an inhibitor of glutathione synthesis, _DL-buthionine-[S,R]-sulfoximine (BSO), for 24 hr and exposed to 41°C for the first 12 hr of maturation. Percentages of blastocysts were 35% (39°C), 18% (41°C), 17% (39°C+BSO), and 11% (41°C+BSO). For experiment 5, oocytes were either denuded or left with cumulus intact and were then radiolabeled with [³⁵S]methionine and [³⁵S]cysteine at 39°C or 41°C for 12 hr. Exposure of oocytes to 41°C for 12 hr reduced overall synthesis of ³⁵S-labeled TCA-precipitable intracellular proteins (18,160 vs. 14,594 dpm/oocyte), whereas presence of cumulus increased synthesis (9,509 vs. 23,246). Analysis by two-dimensional SDS PAGE and fluorography revealed that heat shock protein 68 (HSP68) and two other putative heat shock proteins, P71 and P70, were synthesized by all oocytes regardless of treatment. Heat shock did not alter the synthesis of HSP68 or P71 but decreased amounts of newly synthesized P70. Cumulus cells increased synthesis of P71 and P70. Results indicate there is a biphasic change in resistance to elevations in temperature as oocytes mature, become fertilized, and develop. Resistance declines from the oocyte to the two-cell stage and then increases. Evidence suggests a role for cumulus cells in increasing HSP70 molecules and protein synthesis. Data also indicate a role for glutathione in oocyte function. Mol Reprod Dev 46:138–145, 1997. © 1997 Wiley-Liss, Inc.     

Synthesis of cyclopropane fatty acid and its effect on freeze-drying survival of Lactobacillus bulgaricus L2 at different growth conditions

In order to correlate cyclopropane fatty acid of the membrane of Lactobacillus bulgaricus L2 with freeze-drying survival at different growth conditions, fatty acid methyl esters (FAME) from extracts grown at difference fermentation pH (5.0, 5.5, 6.0, 6.5) and temperature (30, 35, 37, 39°C) were obtained and analyzed. Results showed that cultures grown at 30°C and pH 5.0, 35°C and pH 5.0, 39°C and pH 6.0 exhibited more resistance to the freeze-drying process than cultures grown in other conditions, cells cultured at 30°C and pH 5.0 had a highest survival rate. On the other hand, cells grown at 37°C displayed poor resistance to adverse conditions possible because of the lower cycC19:0 content. It was concluded that the improved cryotolerance observed during freeze-drying would be associated with an increase in cycC19:0 content and cycC19:0/SFA ratio and vice versa.     

Defect in translation of poliovirus RNA at the restrictive temperature.

Translation of the RNA of LSc type 1 poliovirus was examined in vivo at the restrictive temperature (39 °C). During the first two hours of infection at 39 °C the levels of viral polyribosomes were 50% lower than at 35 °C (permissive temperature). During the third hour of infection at 39 °C, only 4 to 10% of the control levels of polyribosomes were observed. Three experiments indicate that the elongation of viral peptides was not occurring properly at 39 °C. First, cultures incubated at 39 °C during the third hour of infection with both [³⁵S]methionine and [³H]uridine exhibit a fourfold increase in the ratio of viral protein/viral RNA in the polyribosome region of sucrose gradients in comparison to controls kept at 35 °C. However, at both temperatures the relative size distribution of polyribosomes was similar. Second, the ratios of released protein/nascent protein after 90-second and 5-minute pulses with [³⁵S]methionine indicate that elongation of peptide chains was inhibited at 39 °C. Third, when initiation of synthesis of viral protein was blocked with 150 mM-NaCl, the polyribosomes disaggregated four to five times more rapidly at 35 °C than at 39 °C. The data indicate that translation of viral RNA is inhibited at the restrictive temperature because of a reduced rate of elongation of viral proteins. The reduced rate of peptide chain elongation at 39 °C was fully reversible when cultures were shifted to 35 °C in the presence of 150 mm-NaCl. The latter finding indicates a conformational change in viral protein at 39 °C.     

The effects of low temperature on myelin formation in optic nerves of Xenopus tadpoles

To test the effect of cold on CNS myelin formation, optic nerves of stages 52–55 Xenopus tadpoles were examined electron microscopically after maintenance at 15, 10, 7 and 4 °C for 1–7 days. Nerves from tadpoles maintained at 15 °C resembled 22 °C (room temperature) controls. After 3 days at 10, 7, or 4 °C, tongue processes and perikarya of many myelin forming oligodendrocytes were swollen and filled with vesicular membrane profiles. The number of axonal microtubules was decreased in affected fibers but the lamellar structure of their myelin sheaths remained normal. Astrocytes were hypertrophic and contained large aggregates of filaments. Longer exposure to 10 or 7 °C increased the number of affected fibers but the changes were not more severe or associated with degeneration. The delayed onset, lack of progression and reversibility of the changes indicated that cold has a direct metabolic effect on myelin forming oligodendrocytes. Alterations produced by nerve transection or exposure to mitotic inhibitors differed, suggesting that cold induced changes were not due primarily to either axonal degeneration or reduced axonal transport.     

Effect of temperature on oocyte development of Oreochromis karongae (Trewavas, 1941)

Oreochromis karongae (Trewavas, 1941) is one of the indigenous Tilapia species exhibiting favourable traits for aquaculture in Malawi. However, commercial fingerling production is still a problem. An experiment was carried out to investigate the effect of raising ambient temperature to 27°C on oocyte development of the fish. Female O. karongae were reared under two temperature regimes: at room (20.3 ± 0.8°C) and at raised (26.5 ± 0.5°C) temperature for 90 days. Changes in gonadosomatic index (GSI) and oocyte developmental stages were determined every 45 days. Fish samples from the pond (22.5 ± 3.4°C) from which experimental fish were collected were used for comparison. Results showed that raising temperature to 26.5 ± 0.5°C significantly enhanced oocyte development. Higher GSIs (P ≤ 0.05) were obtained after 45 and 90 days in fish cultured at elevated temperature (0.82 ± 0.66 and 1.13 ± 0.47%, respectively) than at room temperature (0.06 ± 0.03 and 0.37 ± 0.05 %, respectively). GSI of fish samples from the pond were not different from that of fish from room temperature. After 45 days, relative frequency of mature oocytes was higher (P ≤ 0.05) in fish from raised temperature (60.42 ± 3.63%) than in fish from room (1.76 ± 0.84%) and pond temperature (2.43 ± 1.38%). After 90 days, the frequency of mature oocytes in fish from raised temperature was not different from pond fish (8.68 ± 2.40 and 10.99 ± 3.41%, respectively). Fish from room temperature had a low (P ≤ 0.05) frequency of mature oocytes (3.12 ± 2.03%). The results suggest that O. karongae has the potential to spawn throughout the year when the temperature is manipulated.     

Analysis of the chromosome complement of frozen-thawed mouse oocytes after parthenogenetic activation

Frozen-thawed mouse oocytes were artificially activated with Sr²⁺ and analyzed cytogenetically at the first cleavage division to examine the behavior of the maternal chromosomes independently of the paternal complement. There was no significant difference in the rate of activation between frozen-thawed and freshly collected oocytes and the majority of oocytes (>90%) had a normal haploid chromosome constitution. The incidence of second polar body retention in frozenthawed oocytes was low and did not differ significantly from that observed in fresh oocytes and oocytes exposed to dimethylsulfoxide (DMSO) at 0°C or 37°C for extended periods beyond those required for protection. The frequency of aneuploidy was similar for frozen-thawed and fresh oocytes but oocytes held at 0°C without DMSO or held at 37°C with DMSO for 1 hr showed a 2.5 and 12-fold increase in the frequency of aneuploidy compared with oocytes subjected to a conventional oocyte/embryo freezing regime. It is concluded that the procedures used in successful oocyte cryopreservation do not increase the incidence of chromosomal abnormalities of maternal origin in the resulting embryos. © 1995 wiley-Liss, Inc.     

Delayed augmentation effect of cytokine production after hyperthermia stimuli

Heatstroke is considered an important condition that may contribute to endothelial cell damage. The aim of this study was to assess temporal profiles of the cytokine (IL-6 and IL-8) and mRNA production when endothelial cells undergo higher temperature stimuli. In the first group, human umbilical vascular endothelial cells (HUVECs) were cultured at 4 different temperatures (37, 38, 39 or 40°C) for 1, 3 and 5 h. In the second group, HUVECs were cultured at 37°C for 4 h or 23 h, after stimulation by heating for one hour at the same culture temperatures used in the first group (37°C to 40°C). After culturing, IL-6 and IL-8 mRNA and protein levels were measured. It has been found the cytokine mRNA levels being significantly higher (p < 0.001) in all cells incubated at higher temperaturesthan those in the control (cultivation at 37°C). At the same time, the production of IL-6 and 8 at a higher temperature (39, 40°C) was significantly lower (p < 0.001) than at 37°C (control), and the decrease was temperature dependent. However, IL-6 and IL-8 levelswere significantly greater in the cells at 23 h after transient hyperthermic (40°C, 1 h) stimulation than in control ones (p < 0.001). After a transient hyperthermia, the production of the cytokinesin HUVECs is initially inhibited and then augmented. The results indicated that tissue injury might continue to develop after a hyperthermic event. There might be a potent risk for underestimation of cytokine induced tissue injury in the acute phase of a heatstroke.     

Effects of heat shock,heat exposure pattern,and heat hardening on survival of the sycamore lace bug,Corythucha ciliata

The sycamore lace bug, Corythucha ciliata (Say) (Hemiptera: Tingidae), is an invasive exotic pest on Platanus trees in China. This study assessed the thermotolerance of C. ciliata in the laboratory. Detailed experiments were conducted on the effects of high temperature (35, 37, 39, 41, 43, and 45 °C), duration of exposure (0.5, 1, 2, 4, 6, and 8 h), and developmental stage (egg, nymph, and adult) on survival of the bug. Meanwhile, the effects of heat hardening on survival at lethal temperature (exposure to 33, 35, 37, 39, and 41 °C for 1 h prior to transfer to 43 °C for 2 h) were also assessed for nymphs and adults. Survival of eggs, nymphs, and adults was not affected by temperatures between 35 and 39 °C, but declined rapidly with increasing duration of exposure (from 0.5 to 8 h) at temperatures ≥41 °C. The lethal temperature that caused mortality of 50% (Ltemp₅₀) of all developmental stages decreased with increasing duration of exposure from 0.5 to 8 h. The Ltemp₅₀ for nymphs was 44.3, 42.0, and 39.0 °C after 0.5, 2, and 8 h exposure, respectively. Thermotolerance was the highest in eggs, followed by adults and then nymphs. Thermotolerance was slightly greater for adult males than for adult females. The ability of nymphs, females, and males to survive exposure to 43 °C for 2 h significantly increased by heat hardening, i.e., by exposure to a non‐lethal high temperature for 1 h; the optimal heat‐hardening temperature was 37 °C. The results indicate that survival of C. ciliata at heat‐shock temperatures depended on both the temperature and the duration of exposure, and the tolerance to heat shock was enhanced by heat hardening. The thermotolerance of C. ciliata may partially explain why C. ciliata has been rapidly spreading on Platanus trees in southern provinces of China.     

Torpor-associated fluctuations in surfactant activity in Gould’s wattled bat

The primary function of pulmonary surfactant is to reduce the surface tension (ST) created at the air–liquid interface in the lung. Surfactant is a complex mixture of lipids and proteins and its function is influenced by physiological parameters such as metabolic rate, body temperature and breathing. In the microchiropteran bat Chalinolobus gouldii these parameters fluctuate throughout a 24 h period. Here we examine the surface activity of surfactant from warm–active and torpid bats at both 24°C and 37°C to establish whether alterations in surfactant composition correlate with changes in surface activity. Bats were housed in a specially constructed bat room at Adelaide University, at 24°C and on a 8:16 h light:dark cycle. Surfactant was collected from bats sampled during torpor (25<T_b<28°C), and while active (T_b>35°C). Alterations in the lipid composition of surfactant occur with changes in the activity cycle. Most notable is an increase in surfactant cholesterol (Chol) with decreases in body temperature [Codd et al., Physiol. Biochem. Zool. 73 (2000) 605–612]. Surfactant from active bats was more surface active at higher temperatures, indicated by lower ST_min and less film area compression required to reach ST_min at 37°C than at 24°C. Conversely, surfactant from torpid bats was more active at lower temperatures, indicated by lower ST_min and less area compression required to reach ST_min at 24°C than at 37°C. Alterations in the Chol content of bat surfactant appear to be crucial to allow it to achieve low STs during torpor.     

Cell-mediated mineralization in culture at low temperature associated with subtle thermogenic response

In both the growth plate and in marrow stromal cell cultures cell-mediated mineralization is preceded by characteristics of anaerobic and low efficiency energy metabolism. Reagents that increase mineralization like malonate and dexamethasone (DEX) also increase the mitochondrial membrane potential (MtMP) especially 1 week after DEX stimulation. Contrarily, levamisole, which decreases mineralization, also decreases MtMP. Modulation of MtMP and energy metabolism could be linked to regulation of mineralization by the uncoupling of oxidative phosphorylation. This uncoupling should be associated with thermogenesis in cells that induce mineralization. We examined whether cold temperature affects mineralization, and whether cellular thermogenesis takes place at cold temperature in parallel to changes in MtMP. Osteoprogenitor cells (OPC) induced, in DEX stimulated rat marrow stroma, higher mineralization at 33°C than at 37°C. Increased mineralization by cold temperature required long incubation since incubation in the cold during short intervals, 3–4 days, did not increase mineralization relative to (37°C) controls. Marrow stromal cells in the presence of valinomycin responded to incubation at 33°C by retaining all the vital dye after 4 h, unlike the cells at 37°C; however, after 24 h the level of dye retention at 33°C was the same as at 37°C. The delayed response of the temperature-dependent (> 37°C) K⁺ ionophor to incubation in the cold indicated that certain cells may respond to low temperature by local intracellular heating, and by heat conduction to the plasma membrane. DEX-stimulated stromal cells, unlike unstimulated cells, showed increased mitochondrial rhodamine 123 retention in the presence of valinomycin after 24 h in the cold, which corresponds to day 4 of OPC induction. This is consistent with the concept that valinomycin-induced cell damage is mediated by (cold-induced) local heating. The mechanism of this cell damage should selectively prefer non-thermogenic (rhodamine retaining) over thermogenic (rhodamine leaking) cells such as OPC. At cold temperature DEX-stimulated stromal cells showed the best anti-OPC selection under exposure to valinomycine between days 3–7, concurrent with the period of rhodamine leakage from the mitochondria. These results indicate that thermogenesis is enhanced during the period of low MtMP in mineralizing cells, and prolonged exposure to cold increases mineralization also due to induction of subtle thermogenesis. © 1996 Wiley-Liss, Inc.     

Establishment,growth kinetics,and susceptibility to AcMNPV of heat tolerant lepidopteran cell lines

Lepidopteran heat-tolerant (ht) cell lines have been obtained with sf-9, sf-21 and several Bombyx cells. They have a distinct karyotype, membrane lipid composition, morphology and growth kinetics from the parental cell lines. In this paper, we report the development of ht cell lines from other insect species and examination of their growth characteristics and virus susceptibility. Adaptation of cell lines sf-9, BTI-TN-5B1-4 (High5) and BTI-TN-MG1 (MG1) to 33°C and 35°C was carried out by shifting the culture temperature between 28°C and higher temperatures by a gradual stepwise increase in temperature. The process of adaption to a higher culture temperature was accomplished over a period of 2 months. The cell lines with the temperature adaption were designated as sf9-ht33, sf9-ht35, High5-ht33, High5-ht35, MG1-ht33, MG1-ht35. These cell lines have been subcultured over 70 passages. Adaption to high temperatures was confirmed by a constant population doubling time with individual cell lines. The population doubling time of heat adapted cell lines were 1–4 h less than these of parental cell lines. Cell shapes did not show obvious change, however, the cell size of sf9-ht cells was enlarged and those of High5 and MG1 ht cells were reduced after heat adaption. When the cell lines were infected with Autographa californica nuclear polyhedrosis virus (AcMNPV) at 28°C, 33°C, 35°C and 37°C, production of budded virus and occlusion bodies in each cell line was optimum at its own adapted temperature.     

Time- and temperature-dependent autolysis of urinary bladder epithelium during ex vivo preservation

Morphological and functional preservation of urinary bladder epithelium–urothelium after extirpation from an organism enables physiological studies of that tissue and provides the basis for successful organ transplantations. The aim of this study was to determine the optimal temperature for maintaining urothelium in ex vivo conditions. Mouse urinary bladders were kept at the three temperatures usually used for maintaining tissue during transportation: at the temperature of melting ice (1°C), at room temperature (22–24°C), and at the body temperature of most mammals (37°C). Autolytic structural changes were followed with electron microscopy, while destruction of cytoskeleton and intercellular junctions was observed by immunolabeling. The first ultrastructural changes, swelling of mitochondria and necrosis of individual cells, became evident 30 min after extirpation if the tissue was kept at 1°C. After 60 and 120 min in ex vivo conditions, the most severe changes with increasing plasma membrane ruptures were detected at 1°C, while at room temperature only mild changes were detected. At 37°C, the extent of ultrastructural changes was between those of the other two experimental temperatures. Autolytic destruction of cytoskeleton and intercellular junctions was not observed before 2 h after extirpation. After 4 h, severe degradation of cytokeratin 20 and microtubules were found at 1°C and 37°C, while being almost undisturbed at room temperature. On the other hand, the reduction of desmoplakin and ZO-1 labeling was more evident at 37°C than at 1°C and room temperature. These findings provide evidence that room temperature is most appropriate for short ex vivo preservation of urothelial tissue.     

Ultrastructure Changes Induced by Stem Nematodes in Hypocotyl Tissue of Alfalfa

Scarified seeds of Medicago sativa L. ''Ranger'' and ''Lahontan'' alfalfa were allowed to imbibe water for 36 hr and then were inoculated with stem nematodes, Ditylenchus dipsaci Kühn. Seedlings were grown in sterilized Provo sand at 20 C and hypocotyl sections harvested at 1, 3 and 7 days. Evidence from electron micrographs indicated that cells of noninfected control plants contained normally developing chloroplasts bearing stroma, thylakoids, starch grains and plastoglobuli. The cytoplasm contained a nucleus, endoplasmic reticulum, vacuoles, mitochondria, ribosomes and dictyosomes. No morphological symptoms of nematode infection were observed in infected plants of either Ranger of Lahontan alfalfa 1 day after inoculation. Electron micrographs of tissue from the infected plants, however, indicated more osmiophilic bodies (lipid bodies) per cell than did the noninfected control, with more lipid bodies present in Ranger than in Lahontan. Three and 7 days after planting, swollen hypocotyls could be seen; the degree of swelling was greater in Ranger than in Lahontan. Electron micrographs of infected tissues indicated that both cultivars were undergoing the same kind of damage. Injured organelles were endoplasmic reticulum, chloroplasts and the nucleus. Histochemical staining indicated no changes in the middle lamellae.     

Temperature-dependent transmembrane potential changes in cells infected with a temperature-sensitive moloney sarcoma virus

Normal rat kidney cells (NRK) infected with the temperature-sensitive (ts) transformation mutant of Moloney murine sarcoma virus yielded a clone of cells, 6m2, that exhibited a transformed morphology at 33°C and a normal morphology at 39°C. Transmembrane potential (Em) was measured fluorometrically using a cyanine dye diS-C₃-(5). Fluorescence was inversely correlated with Em. Cells at 33°C had lower Em. Em changes were recorded within 15 minutes of temperature shift from 33°C to 39°C in both directions, increasing in the 33°C to 39°C direction and decreasing in the 39°C to 33°C direction. Uninfected NRK cells when shifted under the same condition exhibited small fluorescence changes in the 33°C to 39°C direction. Shifting from 39°C to 33°C resulted in Em changes similar to those in 6m2 cells. Also studied was a cell line infected with a spontaneous revertant of the ts mutant, designated 54-5A4; it was transformed at both temperatures. Shifting from 33°C to 39°C in both directions yielded small changes. Transmembrane potential changes in 6m2 cells precede other transformation-specific changes that occur after a temperature shift.     

Use of low temperature for growth arrest and synchronization of human diploid fibroblasts

The growth kinetics of human diploid fibroblasts at two different temperatures were followed. Proliferation of exponentially growing cells is reduced and eventually stops upon incubation at low temperature (i.e. 30°C). The cells which are in S phase at the time of switching to low temperature complete their DNA synthesis and become arrested in the G₁ phase of the cell cycle. The arrested cells can be stimulated to proliferate by restoration of the optimal growth temperature (37°C). The kinetics of entry into S phase were investigated by measuring [³H]thymidine incorporation into TCA-precipitable material, by autoradiography and by flow cytofluorimetry. The synchronized cells initiate DNA synthesis at approximately 8 h and DNA synthesis peaks at 20.4±0.7 h after stimulation.In addition, the rates of UV-induced excision repair at 30°C and 37°C were compared. The results indicate that at 30°C the excision-repair process is operative but at a slightly reduced rate in comparison with repair at 37°C.This method will be useful for the study of S-phase-dependent processes, as well as for repair studies in the absence of cell division.     

The initiation and elongation steps in protein synthesis: Relative rates in chinese hamster ovary cells during and after hyperthermic and hypothermic shocks

The relative rates of the initiation and elongation phases of protein synthesis have been determined in heat- and cold-shocked CHO cells from measurements of the incorporation of ³⁵S-methionine into N-terminal and internal positions of growing peptides by a modified Edman degradation. When the cells are shifted from 37°C to temperatures between 10°C and 34°C, the rate of initiation is at first reduced more extensively than that of elongation. After 20 to 30 minutes at the lower temperature, however, the cells undergo a metabolic adjustment which includes increasing the rate of initiation until it corresponds to the rate of elongation at that temperature. Calculated apparent energies of activation for initiation and elongation are in reasonable agreement with those determined in other mammalian cells. When the cooled cells are returned to 37°C, the rates of initiation and elongation recover immediately but do not exceed the control values. Exposure to elevated temperature (43°C) causes an immediate cessation of initiation and thus a delayed inhibition of elongation; upon return to 37°C, the rate of initiation is transiently elevated above the control rate, and the rate of elongation returns to the control rate after a 2- to 3-minute delay. Hence, a factor which leads to supranormal rates of initiation may accumulate at high but not at low temperatures.