Body temperature responses of Savanna Brown goat to the harmattan and hot-dry season

Rectal and vaginal temperature responses of the Savanna Brown goat indigenous to the Nigerian guinea savanna were determined during the harmattan and the hot-dry season. Measurements were made at 06:00h and at 14:00h after 8h exposure to field conditions. At the 06:00h measurements during the harmattan, all animals were observed to shiver. A significant (P<0.01) positive correlation was found between rectal (T_re) and vaginal temperatures. During the harmattan, mean T_re was 38.2C at 06:00h and 39.7C at 14:00h; the mean difference, T_re was 1.5C. During the hot-dry season, T_re at 06:00h was 38.1C, and at 14:00h, 38.7; T_re was 0.6C. It is concluded that the harmattan is thermally more stressful than the hot-dry season and that passive thermolability may not be an important mechanism in the Savanna Brown goat in adaptation to thermal stress.     

Effects of hyperthermia on enzymes and electrolytes in blood and cerebrospinal fluid in dogs

The effects of exposure to various degrees of heat stress on serum glutamate—oxaloacetate transaminase (SGOT), serum glutamate-pyruvate transaminase (SGPT), alkaline phosphatase (ALK-P-ase), calcium and chlorides have been studied on 75 dogs. Rectal temperature (T_re) was recorded before and after exposure to heat stress. These dogs were divided into 5 groups, according to the T_re level attained after exposure to heat stress. Rectal temperature was raised from normal to 39.45±0.47C in the first group, to 40.93±0.17C in the second group, to 41.87±0.22C in the third group, to 42.90 ± 0.21C in the fourth group and to 43.93±0.19C in the fifth group. The concentration of enzymes SGOT, SGPT and ALK-P-ase in blood and cerebrospinal fluid (CSF) increased significantly with hyperthermia. Calcium and chlorides concentrations in blood and in CSF tended to increase in hyperthermia. The integrity of the blood brain barrier for these enzymes and calcium is maintained under mild hyperthermia but it breaks down partially under influence of more severe hyperthermia. Core temperature above 41C results in damage to tissues and consequential rise of plasma enzymes. This degree of hyperthermia also seems to mark the beginning of injury to blood brain barrier. Critical core temperature tolerated by 50% of animals was 44C.     

Effects of climate on the thermoregulatory responses of male buffalo (Bubalus-bubalis) calves supplemented with different levels of testosterone and TDN

The present work was undertaken to study the changes in the thermoregulatory responses due to changing climate, androgen and TDN percent in 12 buffalo male calves from 4 months of age for a period of two years. The results obtained were: (1) The amplitudes of the diurnal cycles in rectal temperature (T_re) in each month of the experiment were very similar but longer in summer months as compared to winter months, (2) The correlation between T_re and ambient temperature (T_a) was high in all months. (3) Buffalo calves without testosterone supplementation on 70% TDN showed maximum rise in T_re by 0.076 0C per degree of ambient temperature, indicating more strain, (4) Highest respiratory frequencies occurred at 10:00 h during summer months. Subgroup 2 of group 1 showed the maximum rise by 311% in respiratory frequency in summer over winter due to least acclimatization, (5) The mean daily increase by 9.94C in ambient temperature doubled the respiratory frequency of male buffalo calves from January to April, and (6) Androgen therapy and higher TDN percent level helped the male buffalo calves to adjust better and sooner than the other calves to changing climates.     

Thyroid gland function during cross adaptation to heat and cold in man

Plasma thyroxine (T₄), triiodothyronine (T₃) and thyrotropin (TSH) levels were monitored in 10 healthy euthyroid male subjects of the age group 20 to 30 years before and during heat and cold acclimatisation schedule in a sequential manner. The subjects were exposed to 45C DB and 30% relative humidity in a hot chamber for 2 hours daily for 8 consecutive days. Subsequently they were exposed to cold for 4 hours daily at 10C for 21 days. The mean plasma T₄ and T₃ concentration before exposure to heat were 7.87±0.82 ug/dl and 159.8±9.1 ng/dl respectively. A significant decrease in both T₄ (p<0.05) and T₃ (p<0.01) levels to mean values of 6.4±0.76g/dl and 129±7.9 ng/dl was recorded on day 4 of exposure to heat. Further significant decrease (p<0.05) over the preceding T₃ levels was observed on day 8 of heat exposure. Plasma T₄ and T₃ on day 21 of cold exposure was not significantly different from the levels reckoned after last day of heat exposure but was significantly lower than the pre-exposure values. Throughout the thermal stress schedule there was no change in the TSH levels. These observations suggest that a decrease in thyroid hormone levels during exposure to heat might be an adaptive process which continues even during cold acclimatisation.     

Thermoregulatory responses of Japanese Quail to various air temperatures and humidities

Measurements of rectal temperature (T_re), feather surface temperature (T_s), heart rate (HR) and breathing rate (BR) of adult Japanese Quail were taken at combinations of four mean relative humidities (rh) and stable or rising air temperature (T_a). T_re increased about 1.7° and 2.5°C at a stable T_a of 40°C from a T_a of 25°C at low (<50%) and high (> 80%) rh, respectively. T_s passively increased with T_a while remaining above T_a as high as 41°C. Panting and gular flutter rates were synchronous and approached rates of 800/min at high rh and stable T_a of 40°C. The steady-state panting rate was a direct curvilinear function of ambient water-vapor pressure (P_w). HR was depressed at successively higher, stable T_a's or with slowly increasing T_a. This thermal bradycardia may be related to the degree of discomfort or stress experienced by the animal.

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Zusammenfassung Bei Kombinationen von 4 relativen Feuchtigkeiten (rh) und konstanter oder ansteigender Temperatur (T_a) wurden Messungen der Rektaltemperatur (T_re), Federoberflächentemperatur (T_s), Herzfrequenz (HR) und Atemfrequenz (BR) an ausgewachsenen japanischen Wachteln vorgenommen. Bei T_a 40°C stieg T_re zwischen 1,7°–2,5°C an ausgehend von T_a 25°C bei <50% und > 80% rh. Die T_s folgte diesem Anstieg von T_a und überschritt ihn bis auf 41°C. Hecheln und Gurren stiegen synchron an bis auf 800/min bei hoher rh und 40°C T_a. Die erhöhte Hechelfrequenz war eine direkte lineare Funktion des Wasserdampfdruckes. HR war verlangsamt bei erhöhter, konstanter T_a. Die Hitzebradykardie steht vermutlich in enger Beziehung zu dem Ausmass der von dem Tier empfundenen Belastung.

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Resume On a soumis des cailles du Japon adultes à 4 taux différents d'humidité relative (rh) par température constante ou en hausse et mesuré la température rectale (T_re), la température superficielle des plumes (T_s), les battements du coeur (HR) et la vitesse de respiration (BR). T_re a augmenté de 1,7°C, respectivement de 2,5°C par suite d'une hausse de T_a de 25°C à 40°C par humidité basse (<50%), respectivement élevée (>80%). T_s a suivi la hausse de T_a et l'a même dépassée jusqu'à atteindre 41°C. Halètement et palpitations ont suivi la courbe de T_a pour atteindre 800/min par rh élevée et 40°C de T_a. La vitesse de respiration s'est élevée en fonction linéaire de la pression de vapeur. HR se sont ralentis par T_a élevée, mais constante. La bradycardie de chaud est probablement étroitement liée à la contrainte ressentie par l'animal.

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This investigation was supported in part by funds provided for medical and biological research by State of Washington Initiative Measure No. 171.     

Thermoregulation and thermal perception in the cold and heat before and after intermittent heat adaptation

Students wearing swim suits were exposed for 30 min to neutral room temperature (T_R=28C). During the following 60 min they were subjected to gradual decreases or increases of room temperature reaching 12C or 45C, respectively. Static thermal stimuli were applied to the palms of the right (38C) and left (25C) hands. Hands and feet of all subjects were thermally isolated at 22C ambient temperature. General thermal comfort (GTC), local thermal comfort (LTC), skin blood flow (which is proportional to heat transport index ) several body temperatures, oxygen-consumption , and sweat rate (S), were measured. After moderate intermittent heat exposures (7 times for 1h at T_R=42.5C) the experiments started again. From GTC, LTC, or as functions of T_R, no new knowledge about thermoregulatory or adaptive mechanisms was available. The high in the cold stimulated left hand, however, and the oscillatory thresholds (_OSC) for rhythmic vasomotion indicated the peripheral influence of skin temperature, as well as local, mean skin temperature (¯T_s) and core temperature. When exposed to moderate temperature decreases or increases the body seems to react only with increasing thermal resistance by vasoconstriction or an increase of sweat rate, respectively. Moderate heat adaptation is only able to raise sweat rate, but not the thresholds and gain of the S-function. We assume that functional studies of adaptive modifications in humans must be conducted at temperatures greatly beyond those used in these experiments.     

Body temperatures during rest and exercise in residents and sojourners in hot climate

Rectal (T_re), mean skin temperature ( _sk) and sweating rate ( ) were measured in 4 residents of temperate climate under acute moderate heat exposure (designated EE in such an experimental situation), after 3 weeks in India (designated as EI) and in 8 Indian residents (designated as II) both at rest and during submaximal exercises at 2 different intensities. At rest, T_re is higher in EI (37.6°C) than in EE (36.8°C, P<0.01) and reaches 37.8°C in II. At the end of exercise, the increment in T_re seems to depend on work load only and to be independent of thermal environment; S follows a similar pattern in the 3 groups of subjects: _sk is altered neither by exercise nor acclimatization. Under chronic heat exposure compared to acute conditions: (1) identical is achieved with higher T_re and similar _sk so that the linear relationships vs T_re is shifted to the right. (2) the T_re — _sk difference is greater at rest and during exercise: hence, skin blood flow, calculated from heat balance equation diminishes. In hot climate, a rise in T_re seems to be an adaptive response which allows the body to reduce skin blood flow.     

Changes in body core temperatures and heat balance after an abrupt release of lower body negative pressure in humans

Changes in body core temperature (T _cor) and heat balance after an abrupt release of lower body negative pressure (LBNP) were investigated in 5 volunteers under the following conditions: (1) an ambient temperature (T _a) of 20 °C or (2) 35 °C, and (3)T _a of 25 °C with a leg skin temperature of 30°C or (4) 35°C. The leg skin temperature was controlled with water perfusion devices wound around the legs. Rectal (T _re), tympanic (T _ty) and esophageal (T _es) temperatures, skin temperatures (7 sites) and oxygen consumption were measured. The intensity of LBNP was adjusted so that the amount of blood pooled in the legs was the same under all conditions. When a thermal balance was attained during LBNP, application of LBNP was suddenly halted. The skin temperatures increased significantly after the release of LBNP under all conditions, while oxygen consumption hardly changed. The release of LBNP caused significant falls inT _cor s under conditions (1) and (3), but loweredT _cor s very slightly under conditions (2) and (4). The changes inT _es were always more rapid and greater than those ofT _ty andT _re. The falls inT _ty andT _re appeared to be explained by changes in heat balance, whereas the sharp drop ofT _es could not be explained especially during the first 8 min after the release of LBNP. The results suggest that a fall inT _cor after a release of LBNP is attributed to an increase in heat loss due to reflexive skin vasodilation and is dependent on the temperature of venous blood returning from the lower body. It is presumed thatT _es may not be an appropriate indicator forT _cor when venous return changes rapidly.     

Effect of protons and cations on chloroplast membranes as visualized by the bound ANS fluorescence

Structural changes in the chloroplast membranes caused by acidification and heat-treatment are studied by observing the changes in the fluorescence of ANS bound to thylakoid membranes. On addition of acids to buffered suspension of isolated pea chloroplasts, the fluorescence intensity of bound ANS shows a sigmoidal rise on reaching a pH value of about 4.5. A part of the fluorescence enhancement of bound ANS brought about by protons is not reversible on back titration with alkali. The reversible part of acid induced rise in ANS fluorescence possibly reflects structural changes expected to be associated with photophosphorylation. Divalent cations enhance the fluorescence of ANS bound to chloroplasts between a pH range 4.5–7.0 but diminish it if the pH is below 4.5.Addition of acid to heat-treated chloroplasts shows similar sigmoidal rise in ANS fluorescence intensity on lowering the pH to about 4.5. On addition of acid upto a pH of 3.1, the ANS fluorescence is greater than that of untreated chloroplasts, however, at pH below 3.1, the fluorescence of bound ANS is lower than the control chloroplasts. This observation indicates that heat-treatment caused some alteration of the microstructure of thylakoid membranes of chloroplasts besides the usual loss in the O₂ evolving capacity.This is further confirmed from the studies of Hill-activity and ANS binding to chloroplasts incubated at various temperatures in the absence and presence of aliphatic alcohol. Hill-activity (DCPIP reduction) of chloroplasts incubated at temperatures between 25 C and 55 C first increases reaching a maximum at 45 C and then declines rather sharply, when the chloroplasts are heated beyond 45 C (Tmax). The presence of 200 mM n-butyl alcohol or 40 mM n-amyl alcohol during the warming treatment lowers the temperature by 8 C at which the decline in the Hill-activity is observed. An enhancement in the fluorescence intensity and a blue shift of the emission spectrum of bound ANS are noted if the chloroplasts are heated beyond the Tmax either in absence or presence of alcohol. The changes in the fluorescence of ANS bound to heat-treated chloroplasts plausibly reflect the nature of the structural changes in chloroplasts during the heating upto 55 C.Abbreviations ANS 1-anilino-8-naphthalene sulphonate - DCPIP 2,6-dichlorophenol indophenol     

Central nervous versus total body thermosensitivity of the duck

Ducks were chronically implanted with thermodes in the POAH region, the lower brainstem or the vertebral canal. At thermoneutral conditions, lowering the temperature of the spinal cord (T_vc) or the lower brainstem (T_mb) stimulated metabolic heat production (M) with a subsequent rise of core temperature (T_c). Lowering the temperature of the POAH region (T_hy) induced a fall of T_c due to paradoxical activation of heat defence and, thus, induced slight to moderate general hypothermia depending on the cooling intensity. When T_hy was normalized, the hypothermia temporarily stimulated metabolic heat production until T_c was normalized. Cold sensitivity of the entire body, as revealed by the metabolic response to the hypothermia induced by preceding POAH cooling, and cold sensitivity of the spinal cord and the lower brainstem, as revealed by the metabolic response to local cooling, were quantified by calculating the quotient M/T from the maximum metabolic response and the experimentally induced drop of T_c, T_mb and T_vc. With lower brainstem cooling M/T_mbdid not exceed –0.4 W/(kg · C). With spinal cord cooling, M/T_vc did not exceed –0.6 W/(kg · C). The mean value of M/T_c after hypothermia induced by POAH cooling was –4.02 W/(kg · C). The results indicate that the cold sensitivity residing in the CNS of ducks represents only a small fraction of the entire cold sensitivity of the body.Presented at the Eighth International Congress of Biometeorology, 9–14 September 1979, Shefayim, Israel.     

Rectal,telemetry pill and tympanic membrane thermometry during exercise heat stress

We compared the accuracy of an ingestible telemetry pill method of core temperature (T_c) measurement and an infrared tympanic membrane thermometer to values from a rectal thermistor during exercise-induced heat stress. Ten well-trained subjects completed four exercise trials consisting of 40 min constant-load exercise at 63% of maximum work rate followed by a 16.1 km time trial at 30 °C and 70% relative humidity. Temperature at rest was not different between the three methods of T_c measurement (T_re: 37.2±0.3 °C; T_p: 37.2±0.2 °C; T_ty: 37.1±0.3 °C; P=0.40$P=0.40$). Temperature rose continuously during the exercise period (ΔT_re: 2.2±0.5 °C; ΔT_p: 2.2±0.5 °C; ΔT_ty: 1.9±0.5 ±°C and there were no differences between T_re and T_p measurements at any time throughout exercise (P=0.32$P=0.32$). While there were no differences between T_re and T_ty after 10 min (P=0.11$P=0.11$) and 20 min (P=0.06$P=0.06$) of exercise, T_ty was lower than T_re after 30 min of exercise (P<0.01$P<0.01$) and remained significantly lower throughout the remainder of the exercise period. These results demonstrate that the telemetry pill system provides a valid measurement of trunk temperature during rest and exercise-induced thermal strain. T_ty was significantly lower than T_re when temperature exceeded 37.5 °C. However, whether these differences are due to selective brain cooling or imperfections in the tympanic membrane thermometer methodology remains to be determined.     

The relative influence of urban climates on outdoor human energy budgets and skin temperature II. Man in an urban environment

Four typical urban neighborhoods or street canyon settings (including street parks) were simulated. These urban morphologies were exposed to typical summer and winter climatic scenarios for latitudes 10, 34, and 50N. The changes induced in the components of the human energy budget were examined. Resultant skin temperatures were compared with non-urban, unobstructed environments.     

Skeletal muscle pH dynamics during arousal from hibernation measured by31P NMR spectroscopy

Summary The time-course of changes in skeletal muscle pH during arousal from hibernation in the Columbian ground squirrel was studied using³¹P NMR spectroscopy. In hibernation (T _re 7–9°C), shoulder/neck muscle pH was 7.45±0.03 and _Im was 0.60. In euthermia (T _re 37°C), muscle pH was 7.24±0.05 and _Im was 0.75. Thus the overall pH-temperature coefficient was-0.009 pH units/°C, indicating acidification of the muscle in hibernation. During the transition from hibernation to euthermia, however, the muscle shows a nonlinear pattern of pH change. In early arousal (T _sh<20–25°C,T _re<15°C) muscle pH does not change and muscle _Im increases to 0.72. In later arousal (T _sh>20–25°C,T _re>15°C) muscle pH decreases gradually toward the euthermic value and muscle _Im increases only slightly from 0.72 to 0.75. These results support the hypothesis that intracellular acidification of the muscle, present during hibernation, is reversed in early arousal. This may facilitate an increase in muscle metabolism and the contribution of maximal shivering thermogenesis to rewarming of the animal.Abbreviations _Im dissociation ratio of protein imidazole buffergroups - NST non-shivering thermogenesis - BAT brown adipose tissue - dp H/dT temperature coefficient of pH - pH _i intracellular pH - ³¹ P NMR ³¹Phosphorus nuclear magnetic resonance - P _i chemical shift of inorganic phosphate relative to PCr - PCr phosphocreatine - T _b body temperature - T _re rectal temperature - T _sh subcutaneous shoulder temperature - T _a ambient temperature     

Effects of physical conditioning in man on thermal responses to cold air

Thermal responses of ten relatively unfit young men (six lean, four obese) were determined during duplicate exposures of two hours each in air of 10°C. Mean heat production ( ), rectal (T_re), esophageal (T_es), skin (T_s), and subcutaneous (T_sc) temperatures were continuously measured during each exposure. All subjects were then physically conditioned for nine weeks, which increased their work capacity and maximal oxygen intake. On duplicate retesting, , T_re and T_es remained essentially similar to preconditioning values. Mean skin temperature (T_s) of both groups was lower following conditioning, due primarily to lower skin temperatures of the chest, thigh, forearm and upper arm. Toe temperature was unchanged. The T_sc to T_s gradients for the forearm and upper arm were greater in both groups after conditioning. Increased vasoconstriction and a different peripheral circulation pattern in the cold may result from physical conditioning.

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Zusammenfassung Die Wärmereaktionen von 10 relativ untrainierten jungen Männern (6 schlank, 4 fett) wurden im Doppelversuch während 2 Stunden Exponierung bei 10°C untersucht. Die Messungen der mittleren Wärmebildung ( ), rektalen (T_re), Oesophagus (T_es), Haut (T_s) und subkutanen (T_sc) temperaturen erfolgten fortlaufend während jeder Exponierung. Danach wurden alle Personen 9 Wochen körperlich trainiert. Dies führte zu einem signifikanten Anstieg der Arbeitsleistung und maximalen O₂-Aufnahme. Bei doppelter Wiederholung der Untersuchung ergaben sich für , T_re und T_es gleiche Werte wie vorher. Nach dem Training was T_s bei beiden Gruppen tiefer, als Folge tieferer Temperaturen über der Brust, den Oberschenkeln und den Armen. Die Zehentemperatur war unverändert. Die T_sc — T_s Grandienten waren am Vorder- und Oberarm in beiden Gruppen nach dem Training grösser. Eine erhöhte Vasokonstriktion und veränderte periphere Zirkulation in der Kälte ist wahrscheinlich Folge des Trainings.

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Resume La réaction à la chaleur de 10 jeunes gens relativement peu entraînés (6 maigres et 4 gras) a été examinée par l'exposition de 2 × 2 heures à 10°C. On a mesuré en permanence durant chaque exposition la production moyenne de chaleur ( ) et les températures rectale (T_re), de l'oesophage (T_es), de la peau (T_s) et subcutanée (T_sc). Ensuite, toutes ces personnes subirent un entraînement durant 9 semaines. Ceci eut pour conséquence une augmentation significative des aptitudes au travail musculaire et de l'absorption maximum de O₂. De nouvelles mesures répétées deux fois ont donné les mêmes valeurs que précédemment pour , T_re et T_es. Après l'entraînement, les deux groupes présentaient des valeurs inférieures pour T_s en raison de températures plus basses sur la poitrine, la cuisse et les bras. La température des orteils n'avait pas changé. Le gradient T_sc — T_s avait augmenté chez les deux groupes au bras et à l'avant-bras. Une constriction vasculaire plus élevée et une modification de la circulation périphérique sont probablement les conséquences d'un certain entraînement.

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This investigation was supported by Contract No AF 41 (609)-2696 from the Aerospace Medical Division (AFSC) Department of the Air Force.     

Rhodopsin phosphorylation occurs at metarhodopsin II level

Photolyzed rhodopsin was phosphorylated in bovine rod outer segments incubated at –10 C. In the experiment in which urea-treated outer segments and rhodopsin kinase were incubated with ATP in the presence of 30% glycerol, the extent of phosphate incorporation at –10 C was about 30% of that at 37 C. Separation of phosphorylated rhodopsin by isoelectric focusing indicated that a limited number of sites were phosphorylated at –10 C. The partially phosphorylated pigment incorporated more phosphates when the temperatures was raised to 37 C. This was partly due to decreased inhibition of phosphorylation by glycerol at higher temperature. Since the maximum phosphorylation at –10 C (at which metarhodopsin II is stable) occurred at a pH value (6.0) lower than the pKa for metarhodopsin I-metarhodopsin II transition, metarhodopsin II was suggested to be the preferred substrate for rhodopsin kinase at –10 C. Limited proteolysis with thermolysin of rhodopsin phosphorylated at 37 C released peptides containing about 50% of the total phosphate incorporated. In contrast, proteolytic digestion of rhodopsin phosphorylated at –10 C released negligible amounts of phosphate-containing peptides. The results were taken to suggest that the incorporation of phosphates at metarhodopsin II level under the present condition occurred in the residues other than those removed by thermolysin digestion.Based on material presented at the Fifth International Congress of Eye Research, Eindhoven, October 1982     

Transport of rRNA into cytoplasm required for initiation of S phase in root meristem cells inHelianthus annuus L.

Summary Cold treatment (10C) of root meristem during a period longer than duration of the cell cycle in 20C causes a blocking of most cells in G₁. One of the causes of cell cycle blockade is the decrease of rRNA synthesis and inhibition of rRNA transport into cytoplasm. Transfer of seedlings to 20C results in increase of rRNA synthesis and its transport to cytoplasm as well as transition of almost all cells from G₁ to S during 3 hours. Synchronization of DNA replication, comprising cells within rows of cells, is preceded by similar transport patter of rRNA to cytoplasm.This work was supported by the Polish Academy of Sciences within the project 09.7.1.4.4.     

Variations in mental performance under moderate cold stress

Effects of moderate cold stress on reasoning ability, associative learning and critical flicker frequncy of Indian subjects were studied by exposing them to 25C,. 20C, 15C and 10C for three hours. A second set of experiments was also conducted to confirm the conclusions of the first by using the same temperatures and duration of exposure. However, not only the sample used in the second case was larger and different but also the mental functions tested were numerical ability, running memory and mental alertness. It has been concluded that there is a significant impairment of simple cognitive functions at 15C which is 10C lower than their most comfortable temperature of 25C.     

High pressure effects on the endothermic association of tobacco mosaic virus protein

Tobacco mosaic virus protein in phosphate buffer pH 6.5–7.0 (I=0.1 M) shows endothermic polymerization accompanied by water release of the capsomers. At protein concentrations c 2 mg/ml the transition temperature is T ^*=20 ± 1 C. As indicated by the increase of the partial specific folume (V ₂=0.0049 ± 0.0003 cm³/g) in going from A-protein to helical rods at pH 6.50, the assembly reaction is expected to be inhibited by high pressure; the corresponding isobars of the endothermic polymerization should be shifted to higher T ^* values.Turbidity measurements at pressures 1<p<1,500 bar are in agreement with the given hypothesis: both, double discs and helical rods are found to be dissociated at elevated pressure, the latter showing somewhat higher stability. At 700 bar the transition temperature of helix formation is shifted by 14 C to higher temperatures.Complete reversibility of the pressure dependent dissociation-association without hysteresis proves the process to represent a true equilibrium. At low temperatures and high pressures the association equilibrium is shifted to a molecular weight distribution with M _w< M (A-protein). Increased co operativity in the transition A-protein helical rods, as well as an apparent inversion of the sign of the reaction volume at high temperatures and pressures are caused by pressure induced pH shifts. Adjusting the pH at high pressure to the value at ambient pressure allows to eliminate both effects.The product of association at high pressure differs in its conformation from the end product obtained from the endothermic polymerization at 1 bar and subsequent pressure application.     

Effects of ambient and local cutaneous temperatures on hand blood flow

The hand blood flow ( ) was investigated in response to a wide range of general and local cutaneous thermal stimuli (0–36°C and 4–42°C respectively), the local stimulus consisting of a thermostatically controlled water bath for the right hand (T_w), and the general stimulus, the ambient room temperature (T_a). was measured at the right wrist by strain gauge plethysmography; it was seen to respond more significantly to variations in T_w than to those in T_a at cold to comfortable ambient temperatures (T_a<22°C). A paradoxical vasodilatation was observed at T_w=4°C (Lewis' hunting phenomenon). The graphs of versus T at average to high local cutaneous temperatures (T_w > 33°C) are remarkably similar, except for an upward shift at successively higher values of T_w. The slope (or vasomotor reactivity) is interpreted as being controlled by variations in T_a. The curves exhibited maximum values at T_a = 31°C. Their subsequent decrease could represent a thermoregulatory adaptation to environment-organism heat transfer, the relative vasoconstriction tending to reduce the transfer. Although the qualitative response was the same for both sexes, the absolute value of was generally greater in male than in female subjects.