Photosynthesis and ultrastructure of photosynthetic apparatus in tomato leaves under elevated temperature

The microstructure of leaves and ultrastructure of chloroplasts were examined in tomato (Lycopersicon esculentum L.) plants treated with elevated temperature. Plants were exposed to 35°C for 30 d after florescence. The plants grown continuously under 25°C served as controls. Compared with the controls, the net photosynthetic rate (P _N) in stressed plants decreased significantly. Stomatal conductance, intercellular CO₂ concentrations, the rate of transpiration, and the limitation of stomatal conductance showed that the decrease in P _N was caused mainly by nonstomatal restrictions. Meanwhile, stomata density increased significantly in the stressed plants. The stomata status of opening and closing became disorganized with a prolonged 35°C exposure. The damage of chloroplast membrane occurred earlier and was more serious in the plants under elevated temperature. At the same time, the thylakoids were loosely distributed with lesser grana, but the number of lipid droplets increased in chloroplasts. The number of starch grains in chloroplasts increased first and then decreased. In addition, the length of the main nerve in leaves increased and the main vein showed distortion in the plants stressed by 35°C. An increase was observed in the number of cells on the abaxial side of the main vein and these cells were overly congregated. The thickness of a vertical section became thinner in the stressed leaves. The cells of the upper epidermis thinned, and the ratio of palisade tissue to spongy tissue decreased. Generally, the photosynthetic apparatus of tomato changed significantly and the changed chloroplast ultrastructure might be one of the important reasons that caused the decrease of P _N under 35°C.     

Effects of temperature and salinity on the eggs and early larvae of Caranx mate (Cuv. & Valenc.) (pisces: carangidae) in Hawaii

Eggs and larvae of the carangid fish, Caranx mate (Cuv. & Valenc.), were incubated at various temperature (17.2 to 33.1 °C) and salinity (10 to 42 ‰) combinations in five experiments. The following rates were directly proportional to temperature: embryonic development, yolk absorption, eye and jaw development, and increase in length. Unfed C. mate larvae attained a maximum size at 25 °C and 20 ‰ Eyes and jaws of larvae were functional by the end of the yolk sac stage at all temperature and salinity levels tested.Hatching success and larval survival at the end of the yolk sac stage were generally greater than 50 % between 22° and 32°C. Hatching success and larval survival at the end of the yolk sac stage were reduced at salinity extremes, especially in low temperature-low salinity and high temperature-high salinity combinations. The frequency of morphological abnormalities was also high at extreme temperatures and salinities.The incipient upper thermal TL_m for unfed C. mate larvae acclimated to 23.8°C increased from 31.5°C for newly hatched larvae, to 34.2°C for 72 h larvae, but decreased to 32.0°C for starving larvae after the exhaustion of the yolk supply.     

Reversal of embryonic diapause in the Australian plague locust, Chortoicetes terminifera (Walker), by temperatures above the development threshold

Diapause was induced in embryos of Chortoicetes terminifera (Walker) by transferring adults from an L:D 15:9 regime to an L:D 12.5:11.5 regime. When incubated at 20°C all eggs in all pods entered and remained in diapause but when incubated at 26, 32 and 38°C a proportion of eggs in some pods did not. Pods incubated at 32°C for up to 6 days, when diapause intervenes and then transferred to 20°C gave the same result as pods incubated at 20°C throughout development. All eggs entered and remained in diapause. If the period at 32°C was extended to 8 days, the proportion remaining in diapause was not significantly different from that found when pods were incubated at 32°C throughout development. In eggs which broke diapause at 32°C there was a pause or slowing down of development for about 2 or 3 days around the stage at which diapause intervenes.     

Studies on the mechanism of trypan blue teratogenicity in the rat developing in vivo and in vitro

Trypan blue is a potent teratogen in vivo and in vitro in the rat. Many of the abnormalities produced by trypan blue--including swollen neural tube and pericardium, subectodermal blisters, hematomas, and generalized edema--may result from altered fluid balance in and around the embryo. The present study demonstrates relationships between changes in the fluid environment around the embryo and appearance of anomalies. Rat embryos were exposed in utero or in vitro to trypan blue during the early period of organogenesis. Both exposures resulted in defects that are typical of trypan blue treatment. Osmolality of exocoelomic fluid (ECF) was measured on gestation day 10 in vivo and day 12 in vitro, both after 48 hr of exposure to trypan blue. In both cases ECF osmolality was significantly lower than controls. This was correlated with the presence of edema-related anomalies in the embryo. On gestation day 11 in vivo, three days after maternal injection of trypan blue, ECF osmolalities were significantly higher than controls; however, there was tremendous variability in this parameter in day 11 treated embryos, and some had ECF osmolalities below the control range. Increased frequency of abnormalities was correlated with abnormal ECF osmolality, below and above the control range. Trypan blue probably exerts its teratogenic effects by disturbing the function of the visceral yolk sac. The movements of an amino acid and a monosaccharide across the visceral yolk sac were measured on gestation day 12 embryos in vitro. This aspect of yolk sac function was not altered by trypan blue exposure. Ultrastructure of the visceral yolk sac was observed after trypan blue exposure in vivo and in vitro. Endodermal cells in trypan blue-treated yolk sacs contained fewer large, electron dense lysosomes than controls. These were replaced by numerous small vacuoles, which may contain trypan blue. Trypan blue causes osmotic changes in the rat embryo in vivo and in vitro. These changes are correlated with embryonic malformations. Alterations in yolk sac ultrastructure indicate that trypan blue affects the function of this membrane.     

Interaction between eggshell temperature and carbon dioxide concentration after day 8 of incubation on broiler chicken embryo development

Carbon dioxide (CO₂) is considered to be an important factor during incubation of eggs. Effects attributed to higher CO₂ concentrations during experiment might be due to confounding effects of other environmental conditions, such as incubation temperature. To disentangle effects of eggshell temperature (EST) and CO₂ concentration, an experiment was conducted. A total of 630 Cobb 500 hatching eggs from 37 to 45 wk commercial breeder flocks were collected and incubated according to treatments. The experiment was setup as a complete randomized 2 × 3 factorial design, resulting in 6 treatments. From day 8 of incubation onward, broiler eggs were exposed to one of two EST (37.8 or 38.9 °C) and one of three CO₂ concentrations (0.1, 0.4 or 0.8%). Eggs were incubated in climate-respiration chambers and metabolic heat production was determined continuously. At day 18 of incubation and at 6 h after hatching, embryo and chicken quality were determined by evaluation of organ weights, navel condition, blood metabolites and hepatic glycogen. Hatching time and chicken length at 6 h after hatching showed an interaction between EST and CO₂ concentration (both P = 0.001). Furthermore, no effect of CO₂ concentration was found on embryo development or chicken quality. Metabolic heat production between day 8 and 18 of incubation was not affected by either EST or CO₂. At day 18 of incubation, an EST of 38.9 °C resulted in a higher egg weight loss, longer embryos, higher yolk free body mass (YFBM) and lower heart weight than an EST of 37.8 °C (all P < 0.008). At 6 h after hatching, an EST of 38.9 °C resulted in a higher residual yolk weight and lower YFBM, liver weight and heart weight than an EST of 37.8 °C (all P < 0.003). Lactate, uric acid and hepatic glycogen were not affected by EST at either day 18 of incubation or at hatch. Glucose was not affected by EST at day 18 of incubation, but at hatch, it was higher at an EST of 37.8 °C than at an EST of 38.9 °C (P = 0.02). It can be concluded that effects of CO₂ concentration (at concentrations ≤0.8%) on embryonic development and chicken quality appear to be limited when EST is maintained at a constant level. Moreover, a higher EST from day 8 of incubation onward appears to negatively affect chicken quality at hatch.     

Effects of acute and chronic testicular hyperthermia on levels of testosterone and corticosteroids in plasma of boars

Heat is known to depress spermatogenesis in the boar, but there is little quantitative evidence on its effects on testicular steroidogenesis in this species. The studies reported here examine the effects of short-term and chronic testicular hyperthermia on levels of testosterone (T) and corticosteroids (C) in plasma of Large-White (LW) boars.In examining effects of acute heating, three mature LW boars were maintained at 23°, 35° and 23°C ambient during three consecutive 24-h periods. Blood samples were collected hourly and levels of T and C in plasma determined. Prior to heating, plasma T levels varied diurnally (P<0.05) about a 24-h mean value of 2.78 nM. During heating at 35°C, and recovery at 23°C, mean plasma T levels remained unchanged (P>0.05) but there was a loss of diurnal rhythm. Mean 24-h plasma C levels did not change during heating (20.8 nMat 23°C, 20.2 nMat 35°; P>0.05), but fell (P<0.05) to 8.3 nM during the recovery period at 23°C.Effects of chronic heating on testis function were investigated by determining T and C concentrations in peripheral plasma of unilateral cryptorchid boars in which the scrotal testis was removed shortly after birth. Blood samples were drawn hourly, for 24 h, from each animal at about 10 months of age. The boars were then treated, i.v., with 700 IU hCG and blood samples collected frequently for 12 h. Mean plasma T levels before and after hCG treatment were 1.94 and 3.71 nM respectively, the difference between these levels being significant (P<0.05). At the same time, comparison was made with four normal littermates, hemicastrated at 3 days of age and heated to maintain testis temperature near 38°C. Mean plasma T levels in these boars increased (P<0.05) from 5.90 nM before, to 26.5 nM after hCG treatment, both levels being higher (P<0.05) than corresponding values for the hemicastrate cryptorchid animals. Levels of C in plasma increased (P<0.05) in the heated-scrotal boars following hCG treatment but decreased (P<0.05) in the cryptorchid animals. Histological comparison of testicular tissue from the scrotal and cryptorchid animals in this experiment revealed hypertrophy of Leydig cells in the abdominal testes.It is concluded that acute testicular hyperthermia (to c. 38°C) does not result in significant depression in mean plasma T levels of boars. However, chronic heating of testes at 38°C is associated with lower basal levels of T in peripheral plasma and an impaired response of plasma T concentrations following gonadotrophic stimulation.     

Vitellogenesis and fertility in Drosophila females with low ecdysteroid titres; the L(3)3DTS mutation

After 5 days at the restrictive temperature (29.5°C) adult Drosophila females heterozygous for the dominant temperature-sensitive mutation, L(3)3^DTS, have an ecdysteroid level of about half that in mutant females at 22°C and subsequently become completely sterile due to the inviability of progeny embryos. The lethal phase of progeny from mutant females varies depending upon the length of time DTS-3 females are kept at a sublethal temperature of 27°C. Thus, the DTS-3 mutation shows a maternal effect, and a deficiency of ecdysteroids or ecdysteroid-induced gene products may be responsible for progeny lethality. This lethality cannot be attributed to a deficit in the products of the hormonally-regulated yolk polypeptide genes however, since yolk polypeptide mRNA and protein levels are not reduced in DTS-3 females at the restrictive temperature.     

Temperature alterations during embryogenesis have a sex-dependent influence on growth properties and muscle metabolism of day-old chicks and 35-day-old broilers

Broiler eggs were either incubated at 37.8°C during the whole incubation period (control), or at higher (38.8°C, group H) and lower temperatures (36.8°C, group L) from embryonic day (ED) 7 up to ED 10 (ED 7 to 10) or from ED 10 up to ED 13 (ED 10 to 13). Before and after this temperature treatment the eggs were incubated at 37.8°C. The day-old chicks were weighted, sexed and fed up to day 35. On days 1 and 35 samples were taken from the breast and leg muscles for analyzing of the mitochondrial respiratory activity (MRA) and from the breast muscles for analysis of the cross-sectional areas (CSA) and the glycogen phosphorylase (GP), phosphofructokinase (PFK), lactate dehydrogenase (LDH), citrate synthase (CS) and cytochrome oxidase (COX) activities. Statistical analysis showed that treatment (control, group H, group L), sex and their interaction, but not the treatment period (ED 7 to 10; ED 10 to 13), significantly influenced the results. Group H chicks had lower (P⩽0.05) body and heart weights but higher (P⩽0.05) liver weights, CSA values, leg MRA as well as PFK, LDH, CS, GP and COX activities compared with the group L chicks. The results of the control chicks differ (P⩽0.05) from those of the group H (body, heart weight, COX), the group L chicks (liver weight, PFK, LDH, CS, GP) or the birds of both other groups (CSA). The group H broiler had higher (P⩽0.05) body and leg weights as well as LDH, CS, COX and GP activities than the group L broilers. The BWs and the LDH and GP results of the control broiler differ (P⩽0.05) from those of both other groups or from the results of the group H (CS) and group L broiler (COX). Female broilers had lower (P⩽0.05) body, breast and leg weights, but higher (P⩽0.05) CSA, LDH, CS and GP activities than the male animals. Analysis of treatment×sex interaction showed that group H hens had higher (P⩽0.05) body and breast weights, LDH and GP activities compared with the group L hens, whereas in the male broiler no effect of the interaction could be found, except for the lower (P⩽0.05) CSA values in the group H than group L cocks. The treatment effects are probably due to altered embryonic activity and related molecular mechanisms. The sex-related differences in the broiler indicate that these alterations already occur in the embryos and chicks, but become significant with the sexual dimorphism after hatch.     

Silica-free silicone rubber in isolated heart perfusion with blood at 13 °C

Isolated lamb hearts were perfused at 13 °C for 24 hr with whole fresh blood using a silicone rubber circuit and a membrane lung (N = 7); there was formation of thrombi, deposition of fibrin, and an increase in resistance to blood flow in the membrane lung. The perfused hearts fibrillated at hypothermia and showed unequal recovery of function upon final rewarming.There was less rise in membrane lung resistance when the perfusion circuit was primed with blood at 38 instead of 13 °C and then cooled progressively to 13 °C. Some hearts perfused in these circuits were well preserved but others became edematous with loss of ventricular contractility (N = 6).Coating the perfusion circuit with a hypothrombogenic material, silica-free silicone rubber and priming the circuit at 38 °C prevented any rise in membrane lung resistance during blood perfusion. All the hearts perfused in these circuits (N = 6) had the same left ventricular function before and after cold perfusion.Thus isolated hearts can be perfused in vitro with whole blood at hypothermic temperature without loss in function when attention is paid to thrombogenicity of materials used to construct the perfusion circuit.     

Incubation temperature critical to successful stimulation of in vitro zygotic embryo growth in four Australian native Cyperaceae species

Many species of Western Australian Cyperaceae (sedges) are vital components of the indigenous flora but commonly display low seed set, poor seed quality and intractable seed dormancy. We report the effects of incubation temperature and in vitro growth media on whole seed germination compared with extracted zygotic embryo growth in Tetraria capillaris, T. octandra, Lepidosperma drummondii and L. tenue. No germination was observed from intact whole seeds of all test species regardless of the treatment evaluated. In contrast, excised zygotic embryos of all study species exhibited significant increases in growth when cultured at 15°C compared to embryos incubated at 25°C; however, optimal media for embryo growth were genera specific. Extracted embryos of T. capillaris and T. octandra exhibited maximum percentage growth (30 and 40%, respectively) at 15°C on ½ MS medium with no plant growth regulators required. In the case of L. drummondii and L. tenue 1 μM thidiazuron was a necessary addition to the ½ MS medium resulting in 40 and 77% growth of embryos (at 15°C), respectively. Incubation of extracted embryos at 25°C (regardless of medium treatment) resulted in <10% embryo growth for T. octandra and L. tenue, while the remaining two species (L. drummondii, T. capillaris) showed no embryo growth at 25°C on any medium treatment.     

Developmental progression of gill rakers as a post-hatch developmental marker in pink salmon, Oncorhynchus gorbuscha

We evaluate the usefulness of gill rakers as a post-hatch developmental marker in salmon by tracking development in undisturbed and stressed yolk-bearing salmon embryos. Native pink salmon (Oncorhynchus gorbuscha) from Auke Creek, Juneau, Alaska and genetically stressed outbred hybrids between Auke Creek and Pillar Creek (Kodiak Island) salmon were incubated in ambient-temperature Auke Creek water. Environmentally stressed native embryos were reared in water that was 2 to 4 °C warmer than ambient. The sum of rakers on the first left and right branchial arches of natives reared at ambient temperatures averaged 23.20 (SD?±?1.64) per embryo when post-hatch sampling began. The subsequent increase in raker counts was linear and positively correlated with the accumulation of thermal units until counts reached maxima 223 days after fertilization, which coincided with the complete consumption of yolk reserves. The average maximum raker count was 39.55 (SD?±?1.76) per embryo, which is substantially fewer than the 60 rakers typically observed in adults. Neither raker development nor yolk consumption patterns were affected by hybridization. Elevated incubation temperatures accelerated raker formation and yolk consumption in native embryos, but the number of rakers associated with a given amount of yolk was the same regardless of temperature suggesting that changes in yolk consumption rate and raker development rate did not influence raker counts. These results indicate that rakers are easily observed and counted, grow in a predictable sequence, and are developmentally stable in the face of both genetic and environmental stress, thereby making them potentially reliable post-hatch developmental markers.     

Development of a chemically defined ram semen diluent (RSD-1)

A chemically defined ram semen diluent (RSD-1) has been developed. RSD-1 maintained spermatozoal motility of diluted semen containing approximately 800 million spermatozoa ml⁻¹ during cooling to 15°C and its storage for 1 h. Motility was further maintained when the cooled semen was diluted to 100 million spermatozoa ml⁻¹ and incubated at 38°C for about 24 h. In contrast, a conventional milk-based diluent supported motility for less than 6 h at 38°C. Spermatozoal motility was influenced by the buffering capacity, osmolarity and the presence or absence of macromolecules and calcium in the chemically defined diluent. Among the organic buffers tested, MOPS (3-(N-morpholino)propanesulphonic acid) had a marked influence on the maintenance of spermatozoal motility. The presence of MOPS also overcame the detrimental effects of 2 mM calcium in Krebs Ringer improved (KR-I) buffer.     

The developmental potential of frozen-thawed hamster preimplantation embryos following embryo transfer: Viability of slowly frozen embryos following slow and rapid thawing

Hamster preimplantation embryos were slowly frozen (0.33°C/min) and seeded above 10°C in TC-199 containing 1.5 M-DMSO. These embryos were thawed either slowly (1.5°C/min) or rapidly (90°C/min). The thawed embryos were examined by morphology, trypan blue exclusion and viability after embryo transfer. Slow thawing gave significantly higher viability compared to rapid thawing. The early preimplantation embryos demonstrate higher sensitivity to freezing. The three tests of viability (morphology, trypan blue exclusion and embryo transfer) were found to be positively correlated.     

Temperature and genotype affect asparagus somatic embryogenesis

Summary Calluses from five asparagus genotypes G14, G32, G171, G203, and G447 and hybrid Jersey Giant (JG) were incubated at three temperature regimes (24, 27, and 30°C) on embryo induction medium to assess somatic embryo development and conversion to plantlets. The calluses from three genotypes (G14, G32, and G171) were not responsive, failing to produce somatic embryos at any temperature regime. For three responsive genotypes (G203, G447, and JG), both incubation temperature and genotype significantly affected the numbers of somatic embryos produced. The calluses produced the most and the least numbers of total, bipolar, and globular embryos when incubated at 27°C and 24°C, respectively. When incubated at 27°C, G203 produced the highest numbers of total and globular embryos, 178 g⁻¹ callus and 142 g⁻¹ callus, respectively while G447 produced the highest number of bipolar embryos, 77 g⁻¹ callus. Incubation temperature but not genotype significantly affected the conversion of somatic embryos to plantlets. The somatic embryos recovered from the three responsive genotypes incubated at 27°C also converted to plantlets at the highest frequencies, 60–63% of the bipolar embryos and 42–43% of the globular embryos converted to plantlets, while the somatic embryos recovered from the calluses incubated at 24°C converted to plantlets at the lowest frequencies.     

Amphetamines reduce embryonic size and produce caudal hematomas during early chick morphogenesis

Experiments were designed to study some of the similarities and differences in the effects of amphetamines and trypan blue on early chick morphogenesis. Both dextroamphetamine sulfate (0.5 mg/egg) and methamphetamine hydrochloride (1.0 mg/egg) were capable of inducing, in 3-day chick embryos, caudal hematomas which were similar in appearance and location to those routinely observed following treatment with trypan blue. It was found, too, that both dextroamphetamine and methamphetamine treated embryos frequently exhibited a significant decrease in crown rump length and cross-sectional area of the notochord, neural tube, dorsal aortae and whole body section, when compared with unopened or saline injected controls. Trypan blue treated embryos had only a rare decrease or increase in the size of structures when compared to either control group. These findings suggest that the amphetamines have an ability to decrease or retard embryonic growth in the chick.     

Does elevated CO2 protect photosynthesis from damage by high temperature via modifying leaf water status in maize seedlings?

We hypothesized that decreased stomatal conductance (g _s) at elevated CO₂ might decrease transpiration (E), increase leaf water potential (Ψ_W), and thereby protect net photosynthesis rate (P _N) from heat damage in maize (Zea mays L) seedlings. To separate long-term effects of elevated CO₂, plants grew at either ambient CO₂ or elevated CO₂. During high-temperature treatment (HT) at 45°C for 15 min, leaves were exposed either to ambient CO₂ (380 μmol mol^?1) or to elevated CO₂ (560 μmol mol^?1). HT reduced P _N by 25 to 38% across four CO₂ combinations. However, the g _s and E did not differ among all CO₂ treatments during HT. After returning the leaf temperature to 35°C within 30 min, g _s and E were the same or higher than the initial values. Leaf water potential (Ψ_W) was slightly lower at ambient CO₂, but not at elevated CO₂. This study highlighted that elevated CO₂ failed in protecting P _N from 45°C via decreasing g _s and Ψ_W.     

Relationships between ovulation rate and embryonic and placental characteristics in multiparous sows at 35 days of pregnancy

The objective of this study was to investigate relationships between ovulation rate (OR) and embryonic and placental development in sows. Topigs Norsvin^R sows (n=91, parity 2 to 17) from three different genetic backgrounds were slaughtered at 35 days of pregnancy and the reproductive tract was collected. The corpora lutea (CL) were counted and the number of vital and non-vital embryos, embryonic spacing (distance between two embryos), implantation length, placental length, placental weight and embryonic weight were assessed. The difference between number of CL and total number of embryos was considered as early embryonic mortality. The number of non-vital embryos was considered as late mortality. Relationships between OR and all other variables were investigated using two models: the first considered parity as class effect (n=91) and the second used a subset of sows with parities 4 to 10 (n=47) to analyse the genetic background as class effect. OR was significantly affected by parity (P<0.0001), but was not affected by the genetic background of the sows. Parity and genetic background did not affect embryonic and placental characteristics at 35 days of pregnancy. OR (varying from 17 to 38 CL) was positively related with early embryonic mortality (β=0.49±0.1 n/ovulations, P<0.0001), with late embryonic mortality or number of non-vital embryos (β=0.24±0.1 n/ovulations, P=0.001) and with the number of vital embryos (β=0.26±0.1 n/ovulations, P=0.01). However, dividing OR in four classes, showed that the number of vital embryos was lowest in OR class 1 (17 to 21 CL), but not different for the other OR classes, suggesting a plateau for number of vital embryos for OR above 22. There was a negative linear relationship between OR and vital embryonic spacing (β=−0.45±0.1 cm/ovulation, P=0.001), implantation length (β=−0.35±0.1 cm/ovulation, P=0.003), placental length (β=−0.38±0.2 cm/ovulation, P=0.05) and empty space around embryonic-placental unit (β=−0.4±0.2 cm/ovulation, P=0.02), indicating uterine crowding. Further analyses showed that effects of OR on embryonic and uterine parameters were related with the increase in late mortality and not early embryonic mortality. Therefore, we conclude that a high OR results in an moderate increase in the number of vital embryos at day 35 of pregnancy, but compromises development in the surviving embryonic/placental units, suggesting that the future growth and survival of the embryos might be further compromised.     

Haploid plant regeneration via embryogenesis from anther cultures of Hepatica nobilis

An anther culture technique for the production of haploid plants was developed in Hepatica nobilis. Embryos with bipolar meristem regions were induced from microspores within the cultured anthers. Embryo formation was promoted by first culturing anthers on NN medium (Nitsch and Nitsch, 1969) supplemented with 1% activated charcoal (AC) at 5 or 35?°C for a few days and by then incubating them in the dark at 25?°C. Pre-culturing anthers at 35?°C for 4?days (thermal-shock treatment) led to the best embryo formation (45 embryos/Petri dish with 30 anthers). Plant regeneration was achieved by culturing the anther-derived embryos on NN medium without AC at 15?°C. Flow cytometric analysis of anther-derived embryos and chromosome counts in regenerated plants showed that they were haploid plants.     

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.