Inactivation of transforming DNA by ultraviolet light. 3. Further observations on the effects of 365 nm radiation

In the doubly auxotrophic strain ad 3A 38701 inos 37401, nitrosoethylurethane (NEU) produces a storage effect for adenine reversions but not for inositol reversions. Shaking treated spores in water for several hours destroys their response to storage. Short heat-treatment during or before plating increases the frequency of adenine reversions but not that of inositol reversions. Storage and heat-treatment decrease the inositol-specificity of NEU and may reverse it into adenine-specificity. Comparison with similar results obtained for diepoxybutane (DEB) shows that the cellular effects of NEU are more complex than those of DEB.     

The effects of elevated temperature on chiasma formation in Locusts migratoria

Individuals from an inbred laboratory stock of Locusta migratoria were subjected to 40° C heat treatments. These involved both constant 40° C treatment and shorter periods of 5, 4, 3, or 2 days at the high temperature followed by a return to the lower temperature of 30° C. Chiasma frequency analyses revealed that a total of four different effects could be produced by the heat treatments at different stages of cell division: two of the effects involved increases and two involved decreases. Similar, though not identical, effects have also been obtained in the locus Schistocerca gregaria. The similarities and differences in the responses shown by these two species are compared and contrasted.Mrs. M.E. Williams     

Inactivation of transforming DNA by ultraviolet light. I. Near-UV action spectrum for marker inactivation

The storage effect is defined as an increase of mutational damage after cessation of treatment. It differs from other kinds of delayed effect (replication errors, replicating instabilities) in not requiring replication of DNA. In Neurospora ad3A 38701 inos 37401 diepoxybutane (DEB) yields a storage effect for adenine reversions, but none for inositol reversions. The storage effect takes place in treated washed spores that are sedimented in a centrifuge tube, but not in spores that are agitated in water. Under the latter conditions, response to storage is gradually lost. The storage effect can be imitated by administering very small amounts of DEB to cells that had been previously treated with a moderately high dose (booster effect). During post-treatment shaking in water, responses to booster and to storage conditions disappear together; response to booster disappears at the same rate in spores that are sedimented in centrifuge tubes. No mutagenic action could be detected in eluates from heavily treated cells. We have concluded that treatment with DEB sensitizes the conidia to further small doses of DEB whether these are administered extraneously as booster or present intracellularly during storage. Sensitization is lost in the course of a few hours in shaken as well as in sedimented spores. Thus, while the storage effect is due to traces of mutagen, its gradual disappearance after treatment is not due to loss of these traces.Correlated with the ability to yield a storage effect, and probably part of the storage effect, is the response to temperature between treatment and plating. Conidia that can give a storage effect yield fewer mutations when spread on cold agar than when inplated into warm agar or heat-shocked before spreading; the excess of mutation under the latter two conditions forms part of the final storage effect. The true base line for calculation of the storage effect is therefore mutation frequency among spread spores.For DEB as mutagen, response to storage by the adenine locus and lack of response by the inositol locus are correlated with the responses of these two loci to dose of DEB and to combination treatment of DEB with UV, or DEB with nitrous acid (NA). This makes it possible to fit all observations into the picture of a general hypothesis on the cellular effects of DEB. Because of the differential response of the two loci, storage and plating procedures offer two additional means for manipulating specificity in this system.     

Effects of temperature on the properties of primary auditory fibres of the spectacled caiman,Caiman crocodilus (L.)

Summary The effect of temperature on the response properties of primary auditory fibres in caiman was studied. The head temperature was varied over the range of 10–35 ° C while the body was kept at a standard temperature of 27 °C (T_s). The temperature effects observed on auditory afferents were fully reversible. Below 11 °C the neural firing ceased.The mean spontaneous firing rate increased nearly linearly with temperature. The slopes in different fibres ranged from 0.2–3.5 imp s^–1 °C^–1. A bimodal distribution of mean spontaneous firing rate was found (<20 imp s^–1 and >20 imp s^–1 at T_s) at all temperatures.The frequency-intensity response area of the primary fibres shifted uniformly with temperature. The characteristic frequency (CF) increased nearly linearly with temperature. The slopes in different fibres ranged from 3–90 Hz °C^–1. Expressed in octaves the CF-change varied in each fibre from about O.14oct °C^–1 at 15 °C to about 0.06 oct °C^–1 at 30 °C, irrespective of the fibre's CF at T_s. Thresholds were lowest near T_s. Below T_s the thresholds decreased on average by 2dB°C^–1, above T_s the thresholds rose rapidly with temperature. The sharpness of tuning (Q_10db) showed no major change in the temperature range tested.Comparison of these findings with those from other lower vertebrates and from mammals shows that only mammalian auditory afferents do not shift their CF with temperature, suggesting that a fundamental difference in mammalian and submammalian tuning mechanisms exists. This does not necessarily imply that there is a single unifying tuning mechanism for all mammals and another one for non-mammals.Abbreviations BF best frequency: frequency of maximal response at an intensity 10 dB above the CF-threshold - CF characteristic frequency - FTC frequency threshold curve, tuning curve - T _s standard temperature of 27 °C     

A temperature effect on nondisjunction of the X chromosomes among eggs from agedDrosophila females

The effects of temperature and aging on the frequency of nondisjunction inDrosophila melanogaster eggs were investigated. At 25°C offspring arising from 3–5 day old control females had a nondisjunction frequency (0.943/1000 offspring) very similar to that for females who were 24–26 or 27 days old when eggs were collected (1.044/1000 offspring). When females were aged for the same length of time at 10°C the frequency of nondisjunctional exceptions increased to 3.368 per 1000 offspring. These results indicate that aging the females at 25°C does not increase the nondisjunction rate over that obtained from non-aged females raised at 25°. The increase in nondisjunction frequencies when the females were aged at 10°C reflects an influence of temperature on the meiotic process inDrosophila melanogaster. At the low temperature eggs were also aged since few or no eggs were laid during the aging process. Thus in addition to a temperature effect on nondisjunction rates at 10°C there may also be an age effect.     

Effect of Thermal Acclimation on the Expression of Gene Coding for Lactate Dehydrogenase A4 in Loach Skeletal Muscle

Acclimation of Misgurnus fossilis to 5 and 18°C induced considerable changes in LDH-A gene expression in white skeletal muscle. Qualities of total and messenger RNA isolated from weighted portions of muscle are considerably higher after acclimation to 18°C as compared to 5°C. However, a PCR assay of cDNA synthesized from these mRNA and equalized by optical density demonstrated that the level of LDH-A gene expression was indistinguishable for high and low acclimation temperatures, while expression of other genes (glyceraldehyde-3-phosphate dehydrogenase and -actin) considerably increased at 18°C as compared to 5°C. The specific enzymatic activity of LDH from white skeletal muscle of the fish acclimated to low temperature is by 20% higher than that for high-temperature acclimation. Structural analysis of the PCR products synthesized on cDNA-5°C and cDNA-18°C has revealed no differences. However, there are indirect indications of the differences in the C-thermal region of the LDH-A molecule. Northern hybridization reveals the differences at the RNA level: one (1400 bp) or two (about 1600 and 1400 bp) hybridization signals have been found in mRNA-5°C and mRNA-18°C, respectively. The presence of two fractions in the mRNA-18°C indicates alternative splicing.     

Purification and partial characterisation of a broad-range L-amino acid oxidase from Bacillus carotarum 2Pfa isolated from soil

The L-amino acid oxidase (L-aao) from Bacillus carotarum 2Pfa was purified to homogeneity, as judged by polyacrylamide gel electrophoresis, from crude sonicated cell extract by a combination of anion exchange chromatography and gel filtration. The purified enzyme was a dimer with a native relative molecular mass of approximately 102,000 to 115,000 and comprised two identical subunits of 54,000. The isoelectric point of the L-aao was at pH 4.8 the ph optimum was at 8.0–8.5 and the temperature optimum was at approximately 50° C. It was stable for several months at + 4° C and at –20° C. The enzyme contained 2 mol flavin adenine dinucleotide (FAD)/mol enzyme and exhibited relatively broad range substrate specificity, oxidising a total of ten L-amino acids and , albeit to a much lesser extent, seven D-amino acids. Kinetic studies revealed that the three aromatic L-amino acids were the preferred substrates.     

Thoracic temperature,shivering, and flight in the monarch butterfly,Danaus plexippus (L.)

Summary Monarch butterflies, Danaus plexippus (L.), display a warm-up behavior characterized by wingstrokes of small amplitude. Thoracic temperature during this shivering and during fixed flight was measured by means of a smallbead thermistor inserted into the thorax. At ambient temperatures of 15–16°C, once shivering is initiated the thoracic temperature rises at a maximum rate of 1.3°C/min, and a thoracic temperature 4.0°C greater then ambient is produced (Table 1). Fixed flight at these low ambient temperatures results in a similar rate of increase in thoracic temperature, and a similar temperature excess is produced (Fig. 3). At ambient temperatures between 22 and 35°C the thoracic temperature of an animal starting to fly rises at a faster rate, 3.6°C/min, and reaches a greater excess, 7.9°C (Fig. 4). The wingbeat frequency of animals in fixed flight increases with increasing thoracic temperature (Fig. 2). In the absence of direct solar radiation, shivering typically occurs prior to flight at low ambient temperatures (13–17°C), and the resulting increase in thoracic temperature allows monarch butterflies to fly at these cool temperatures.I thank Miss Janice Ruppert and Mr. C. J. Doughty for their valuable technical assistance. The co-operation of the administrators of New Brighton Beach State Park in permitting me to collect in the park is appreciated. Financial support for this study was provided in part by a faculty research grant from the University of California.     

Phenotypic instability in a tif-1 mutant of Escherichia coli

Summary The mutant T44() of Escherichia coli K12, grown in the presence of adenine, develops an increased tolerance to streptomycin. In cultures grown on streptomycin, the ts character (tif) may temporarily be suppressed but, on further transfer, both the temperature-sensitive phenotype and streptomycin tolerance disappear. In a cell-free system, the relative efficiency of translation of MS2 and poly U messenger RNAs was, respectively, 75 and 50% lower in extracts from cultures grown at 37° with adenine than in extracts from 30° cultures. Similar results were obtained when adenine was added in vitro to an extract from a culture grown at 37° in the absence of adenine, using MS2 RNA as messenger. Moreover, the 37° extracts showed a much lower misincorporation of isoleucine into polyphenylalanine in the poly U system. In addition, the Mg⁺⁺ concentration required for optimal translational activity was higher for the 37° than for the 30° extracts. Extracts from a culture grown in L medium at 37° or from a tif ^-/F tif ⁺ merodiploid grown at 37° with adenine behaved similarly to that from the 30° culture when poly U was used as messenger RNA. It is suggested that the tif ⁺ gene product may play a regulatory role in ribosomal function and the pleiotropic nature of the tif-1 mutation could be due to impairment of translational activity augmented by elevated temperature or by adenine.     

The effect of stratification temperatures on the level of dormancy in primary and secondary dormant seeds of two <Emphasis Type="Italic">Carex</Emphasis> species

The effect of temperature on the level of dormancy of primary and secondary dormant Carex pendula and Carex remota seeds was investigated. Primary dormant and secondary dormant seeds were stratified for 4 weeks at 5, 11, 13, and 15 °C, respectively, and tested for germination at 15/5 °C in light. To obtain secondary dormant seeds, primary dormant seeds were stratified at 5 °C and afterwards at 25 °C for 4 weeks. Germination tests were carried out in water and in 25 μmol KNO₃-solution to examine differences in sensitivity to nitrate between seeds relieved from primary and secondary dormancy. In both species, seeds with primary and with induced secondary dormancy showed no significant differences in germination. The two sedges showed significant differences in the effect of stratification temperatures between primary and secondary dormant seeds. Primary dormant seeds of C. pendula showed high germination (>80%) in nitrate-solution after stratification at all temperatures, while only temperatures of 5, 11, and 13 °C led to higher germination in nitrate-solution in secondary dormant seeds. Germination percentages of primary and of secondary dormant C. pendula seeds in water increased to a higher extent only after stratification at 5 and 11 °C; stratification of 11 °C was more effective in secondary than in primary dormant seeds. The only temperature that relieved primary dormancy in C. remota seeds was 5 °C where germination in water and nitrate-solution was >90%. Germination of secondary dormant seeds was increased by stratification at 11 °C independent of the test solution but higher germination after stratification at 13 °C occurred only in nitrate-solution. The results support the existence of physiological differences in the regulation of primary and secondary dormancy by temperature, and in the reaction of nitrate, at least in C. remota.     

Recombinagenicity of caffeine for Candida albicans

Caffeine at concentrations of 0.5 × 10^–2 M or higher inhibited cell replication and induced gene segregations in Candida albicans cultured on defined complete medium. Both responses increased incrementally with increasing caffeine concentrations, and were more severe during incubation at 37 °C than 25 °C; at 37 °C, caffeine levels above 1.5 × 10^–2 M caused cellular inactivation. Caffeine effects occurred only under conditions permitting cell growth, and their magnitudes were greater for unbudded than budding cells, were influenced by cellular genetic backgrounds, and were unaffected by the presence of adenine in the medium. Evaluations of segregations for recessive auxotrophic markers of a four member linkage group carried heterozygously in a cis arrangement in treated cells established that induced segregants arise through either reciprocal or nonreciprocal recombinations. The frequency distributions of classes of reciprocal and nonreciprocal recombinants for these markers conformed with those previously obtained following induction by ultraviolet radiation, indicating that the probabilities of recombinational events within the chromosomal regions defined by the markers are not biased by the differences in kinds of initial DNA lesions caused by the two recombinagens. A panel of four protoplast fusion hybrids considered deficient for DNA repair because of enhanced susceptibilities to UV induced cellular inactivation and mitotic recombination exhibited corresponding increased sensitivities to caffeine, signifying that DNA damage induced by caffeine is subject to repair. Caffeine did not affect behavior of a variant strain exhibiting high frequency phenotypic switching between minute smooth and large rough colonial forms, and no evidence for mutagenicity of the drug was obtained with systems for detection of forward or reverse mutations. The mechanism of caffeine's recombinagenicity, and the implications of that property for genetic studies of C. albicans are discussed.     

Analysis of mutagenesis induced by a thermolabile T4 phage deoxycytidylate hydroxymethylase suggests localized deoxyribonucleotide pool imbalance

Summary To understand the molecular basis of mutation stimulated by deoxyribonucleotide pool imbalance, we studied a temperature-sensitive T4 phage gene 42 mutant (LB3), which specifies a thermolabile deoxycytidylate hydroxymethylase. Analysis of rII mutations, revertible to wild type along either GC-to-AT or AT-to-GC transition pathways, showed 8- to 80-fold stimulation of GC-to-AT mutations at a semi-permissive temperature (34° C). One such marker, rII SN103, which showed the highest stimulation at 34° C, was sequenced after amplification of the template by polymerase chain reaction. The mutant site in rII SN103 was identified at nucleotide position 265 from the rII B translational start as an AT-to-GC transition, which changes TCA to CCA. Sequence analysis of revertants and pseudorevertants generated at 34° C showed that both cytosines within this triplet can undergo change to either thymine or adenine, consistent with the hypothesis that hydroxymethyldeoxycytidine triphosphate pools are depleted at replication sites. However, dNTP pool measurements in extracts of 34° C cultures showed no significant deviations from values obtained at 30° C, suggesting that pool imbalances occur only locally, close to replication forks. Our studies support the hypothesis that the imitator phenotype displayed by ts LB3 at semi-permissive temperature is a consequence of perturbation of the flow of nucleotide precursors into the DNA replication machinery. A putative localized depletion of hm-dCTP presumably enlarges effective dTTP/hm-dCTP and dATP/hm-dCTP pool ratios, resulting in the observed C-to-T transition and C-to-A transversion mutations.     

Interactive effects of temperature and photoperiod on the daily activity and energy metabolism of pouched mice (Saccostomus campestris: Cricetidae) from southern Africa

The daily activity and energy metabolism of pouched mice (Saccostomus campestris) from two localities in southern Africa was examined following warm (25 °C) and cold (10 °C) acclimation under long (LD 14:10) and short (LD 10:14) photoperiol. There was no differential effect of photoperiod on the daily activity or metabolism of pouched mice from the two localities examined, which suggests that reported differences in photoresponsivity between these two populations were not the result of differences in daily organisation. Neverthe-less, there was a significant increase in metabolism at 10 °C, irrespective of photoperiod, even though seven cold-acclimated animals displayed bouts of spontaneous torpor and saved 16.4–36.2% of their daily energy expenditure. All but one of these bouts occurred under short photoperiod, which suggests that short photoperiod facilitated the expression of torpor and influenced the daily energy metabolism of these individuals. As expected for a noctureal species, the amount of time spent active increased following acclimation to short photoperiod at 25 °C. However, there was a reduction in mean activity levels under short photoperiod at 10 °C, possibly because the stimulation of activity by short photoperiod was masked by a reduction in activity during bouts of spontaneous torpor. Cold temperature clearly had an overriding effect on the daily activity and metabolism of this species by necessitating an increase in metabolic heat production and eliciting spontaneous torpor which overrode the effect of short photoperiod on activity at an ambient temperature of 10 °C.Abbreviations 3-ANOVA three-way analysis of variance - %ACT percentage of time spent active - ADMR average daily metabolic rate - M _b body mass - MR metabolic rate - MR_dark metabolic rate recorded during the dark phase - MR_light metabolic rate recorded during the light phase - NST non-shivering thermogenesis - RQ respiratory quotient - STPD standard temperature and pressure, dry - T _a ambient temperature - T _b body temperature - VO₂ oxygen consumption     

High temperature tolerance and heat acclimation of Opuntia bigelovii

Summary The tolerance of Opuntia bigelovii Engelm. (Cactaceae) to high temperature was investigated by subjecting stems to temperatures ranging from 25°C to 65°C for a 1-h period, after which various properties of chlorenchyma cells were examined. The temperatures at which activities depending on membrane integrity decreased by 50% were 60°C for electrolyte leakage, 52°C for staining by neutral red, and 51°C for plasmolysis for plants maintained at day/night air temperatures of 30°C/20°C. Nocturnal acid accumulation, which depends on stomatal opening and enzymatic reactions as well as membrane properties, was half-inactivated at a lower temperature, 46°C. Visual observation indicated that 50% of the stems subjected to a heat treatment of 52°C became necrotic in 2 weeks.Heat acclimation, which is apparently necessary for survival of O. bigelovii in the field, was investigated by raising the day/night air temperatures from 12°C/2°C to 60°C/50°C in 10°C steps every 2 weeks. The heat tolerance of the cellular properties increased with increasing air temperature; for a 10°C temperature increase, the half-inactivation temperature increased 2.9°C for electrolyte leakage, 3.0°C for staining, 3.8° C for stem survival, and fully 6.1°C for nocturnal acid accumulation. The relative order of these four properties with respect to heat tolerance did not change during the hardening, nocturnal acid accumulation remaining the most heat sensitive. The upper temperature for 50% survival was 59° for O. bigelovii when acclimated to day/night air temperatures of 50°C/40°C.     

Extreme temperatures and thermal tolerances for seedlings of desert succulents

Summary Extreme temperatures near the soil surface, which can reach 70°C at the main study site in the northwestern Sonoran Desert, markedly affect seedling survival. Computer simulations indicated that for the rather spherical barrel cactus Ferocactus acanthodes (Lem.) Britt. & Rose the maximum surface temperature decreased 8°C and the minimum temperature increased 3°C as the seedling height was increased from 1 mm up to 50 mm. Simulated changes in shortwave and longwave irradiation alone showed that shading could decrease the maximum temperature by about 5°C for the common desert agave, Agave deserti Engelm., and raise the minimum 1°C. Actual field measurements on seedlings of both species, where shading would affect local air temperatures and wind speeds in addition to irradiation, indicated that shading decreased the average maximum surface temperature by 11°C in the summer and raised the minimum temperature by 3°C in winter.Seedlings grown at day/iight air temperatures of 30°C/20°C tolerated low temperatures of about -7°C and high temperatures of about 56°C, as measured by the temperature where stain uptake by chlorenchyma cells was reduced 50%. Seedling tolerance to high temperatures increased slightly with age, and F. acanthodes was more tolerant than A. deserti. Even taking the acclimation of high temperature tolerance into account (2.7°C increase per 10°C increase in temperature), seedlings of A. deserti would not be expected to withstand the high temperatures at exposed sites, consistent with previous observations that these seedlings occur only in protected microhabitats. Based primarily on greater high temperature acclimation (4.3°C per 10°C), seedlings of F. acanthodes have a greater high temperature tolerance and can just barely survive in exposed sites. Wide ranges in photoperiod had little effect on the thermal sensitivities of either species. When drought increased the chlorenchyma osmotic pressure from about 0.5 MPa to 1.3 MPa, seedlings of both species became about 2°C less tolerant of high temperatures, which would be nonadaptive in a desert environment, and 2°C more tolerant of low temperatures, which also occurs for other species.In conclusion, seedlings of A. deserti and F. acanthodes could tolerate tissue temperatures over 60°C when acclimated to high temperatures and below -8°C when acclimated to low temperatures. However, the extreme environment adjacent to desert soil requires sheltered microhabitats to protect the plants from high temperature damage and also to protect them from low temperature damage at their upper elevational limits.     

Influence of temperature on the properties of the xylanolytic enzymes of the thermotolerant fungus<Emphasis Type="Italic"> Aspergillus phoenicis</Emphasis>

This study reports on the effects of growth temperature on the secretion and some properties of the xylanase and -xylosidase activities produced by a thermotolerant Aspergillus phoenicis. Marked differences were observed when the organism was grown on xylan-supplemented medium at 25 °C or 42 °C. Production of xylanolytic enzymes reached maximum levels after 72 h of growth at 42 °C; and levels were three- to five-fold higher than at 25 °C. Secretion of xylanase and -xylosidase was also strongly stimulated at the higher temperature. The optimal temperature was 85 °C for extracellular and 90 °C for intracellular -xylosidase activity, independent of the growth temperature. The optimum temperature for extracellular xylanase increased from 50 °C to 55 °C when the fungus was cultivated at 42 °C. At the higher temperature, the xylanolytic enzymes produced by A. phoenicis showed increased thermostability, with changes in the profiles of pH optima. The chromatographic profiles were distinct when samples obtained from cultures grown at different temperatures were eluted from DEAE–cellulose and Biogel P-60 columns.     

Effect of rearing temperature and larval density on larval survival, age at pupation and adult size of Anopheles gambiae

The effects of temperature and larval density on survival of larvae, growth rate, age at pupation, and adult size (measured as wing length and dry weight) of laboratory-reared Anopheles gambiae (Diptera: Culicidae) were studied. Larvae were reared at three temperatures (24, 27 and 30°C) and three densities (0.5, 1 and 2 larvae/cm²). The effects of density and temperature strongly interacted to determine the mosquitoes' life-history parameters. Survival was highest at the intermediate temperature of 27°C. The differences between the temperatures increased with increasing density. At 30°C survival decreased as density increased, but at 27°C increasing density led to higher survival. Age at pupation increased as temperature decreased from 30°C to 24°C and as density decreased from 2 to 0.5 larvae/cm². Adult size also increased as temperature decreased, but showed a negative correlation with density only at 27°C. In contrast, at 24°C and 30°C a decrease in density led to a decrease in adult size. Growth rate showed a similar pattern. At 27°C growth rate decreased as density increased, but at other temperatures the opposite trend was observed.     

The influence of root-zone temperature on growth of Betula pendula Roth.

We have examined shoot and root growth and the concentration of carbohydrates in seedlings of a northern (67°N) and a southern (61°N) ecotype of Betula pendula Roth. cultivated at root-zone temperatures of 2, 6, 12 and 17°C. Three hydroponic experiments were conducted in controlled environments. We used three different pretreatments before seedlings were subjected to the experimental temperature treatments. Actively growing seedlings that were acclimated to the hydroponic solution for 3 weeks at a root temperature of 17°C, continued to grow at all the experimental temperatures, with an expected increase in growth from 2 to 17°C. However, if we started with ecodormant cold stored plants or used seedlings grown actively in perlite, no growth was observed at 2°C and only minor growth was found at 6°C. The highest root temperature always produced the best growth. The concentration of nonstructural carbohydrates was higher in seedlings grown at 2°C than at 17°C, and this is probably due to extensive incorporation of carbohydrates into cell walls and other structural elements at 17°C. We found no evidence for differences between the two ecotypes in root growth, in timing of bud burst, but shoot growth terminated in the northern ecotype in the first experiment because the natural photoperiod was below the critical value. Our study highlights the importance of post-transplantation stress (planting check) related to root growth, and that root threshold temperatures may change according to the way plants are pretreated.     

The effects of assay temperature upon the pH optima of enzymes from poikilotherms: A test of the imidazole alphastat hypothesis

Summary A study of the thermal responses of Na-ATPase and NaK-ATPase activities in microsomes prepared from gill tissue of rainbow trout (Salmo gairdneri) revealed further evidence that the two activities are distinct from one another. Arrhenius plots of the NaK-ATPase from sea water-adapted fish and the Na-ATPase from fresh water-adapted fish were linear (Fig. 4) with estimated activation energies of 19.5 and 7.7 kcal/mole, respectively. The Na-ATPase and NaK-ATPase both showed optimum activity at 45°C (Figs. 2 and 3). The Mg-ATPase from fresh water fish showed a distinct temperature optimum at 24°C (Fig. 1) while Mg-ATPase activity from sea water fish was optimum at temperatures of about 15–24 °C (Fig. 3). The Na⁺ dependence of the Na-ATPase and the NaK-ATPase was examined at an assay temperature of 37 °C (Fig. 5) and the results compared with those obtained at 13 °C. No apparent differences were noted for the Na-ATPase, but with the NaK-ATPase both theK _0.5 for Na⁺ and optimum Na⁺ concentration increased at the higher assay temperature. Finally, evidence is presented showing the Na-ATPase to be distinct from Mg-ATPase activity in fresh water trout gill microsomes.Abbreviation HEPES N-2-hydroxyethylpiperazine-N-2-ethane-sulfonic acid