Effect of Neurotensin Peptidomimetics on Thermoregulation in Rats

The effects of the tripeptide analogues of neurotensin, GZR123 and GZR125, on thermoregulation was studied in rats that were kept at different ambient temperatures ( _c): in the cold ( _c = 4–6°C), thermoneutral ( _c = 27–28°C), and hot ( _c = 31–32°C) environment, as well as at room temperature ( _c = 20–21°C). In the cold environment, the injection of GZR123 disturbed the vegetative mechanisms of heat emission, leading to peripheral vasoconstriction and possibly changing heat production. Similar to neurotensin, GZR125 disturbed the development of compensatory vasoconstriction in the cold environment and at room temperature, which resulted in a decrease in body temperature. At high temperature, this peptide induced vasodilation.     

The influence of the environment on seed and seedling mortality

Summary 1. Some of the differences between various techniques of cold testing corn have been examined. No significant difference was found between the results of cold testing by exposing grains to temperatures between 3° and 20°C after 0 and 2 days pre-treatment at 20°C (Erratic results are reported for the mortality induced by exposure of pre-germinated grains to 0°C).2. Mortality in the cold test increased with time of exposure up to 10 days (the longest period involved in the experiments). Varietal differences between Wisconsin 275 and Virginian White Horsetooth became more pronounced with increased period of exposure.3. There was relatively little change in mortality between the cold tests conducted at 3° and 8°C compared to the large change between 8° and 15°C. It is suggested that the temperature of the test should be standardised within the lower range, where small uncontrolled variations in temperature will have least effect on the tests. Attention is called to the fluctuation in soil temperature which may be caused by variations in atmospheric humidity in a constant temperature room.4. Comparison of cold tests made (a) in jam jars of soil with subsequent sowing of the grains in damp sand at a higher temperature with (b) tests involving grain treated in boxes of soil in which the grains remainin situ through all phases of the test, reveal no differences due to these contrasted procedures.     

Secreted agglutinability-masking factors in Issatchenkia scutulata var. scutulata

The agglutinability-masking factors (AMFs) of a and mating types of Issatchenkia scutulata var. scutulata were prepared from culture fluids. AMFs masked the agglutinability of opposite mating-type cells sex-specifically, just like agglutination substances responsible for sexual cell agglutination. a AMF adsorbed to cells was eluted by incubating the cells at 60°C for 10 min. AMF was prepared directly from culture fluids of cells by DEAE-cellulose ion exchange chromatography. The active part of the AMFs is thought to be a peptidyl moiety because of the sensitivity to subtilisin. The pretreatment of cells with AMF of the opposite mating-type was shown to promote zygote formation. AMF slightly inhibited growth in a cells but not in cells, while a AMF did not show any growth-inhibitory effect on either a or x cells.     

Determination of the overall volumetric mass transfer coefficient kLa,by a temperature dependent change of gas solubility

Summary The solubility of oxygen in the liquid phase of a bioreactor was changed by a ramp change of temperature, and k_La was determined from the resulting return to equilibrium of dissolved oxygen activity. The maximum k_La that can be measured by this method in a standard laboratory scale bioreactor is 145 h^–1 corresponding to a temperature change rate of 320°C h^–1.Nomenclature p Difference between p_G and p_L (% saturation) - T Ramp change of temperature (°C) - E Temperature-compensated output from the oxygen electrode (A) - E_u Uncompensated output from the oxygen electrode (A) - k_La Overall volumetric mass transfer coefficient (h^–1) - k_La_Tm Overall volumetric mass transfer coefficient at temperature T_m (h^–1) - P_G Dissolved oxygen activity in equilibrium with the gas phase (% saturation) - p_L Dissolved oxygen activity (% saturation) - p_Lm Dissolved oxygen activity at time t_m (% saturation) - t Time (h) - t_m Time of maximum p (h) - T Temperature (°C) - T_cal Calibration temperature of the oxygen electrode (°C) - T_m Final temperature after a temperature shift (°C) - T_n Temperature at time t_n     

Electric field-induced breakdown of lipid bilayers and cell membranes: A thin viscoelastic film model

Summary A simple viscoelastic film model is presented, which predicts a breakdown electric potential having a dependence on the electric pulse length which approximates the available experimental data for the electric breakdown of lipid bilayers and cell membranes (summarized in the reviews of U. Zimmermann and J. Vienken, 1982,J. Membrane Biol. 67:165 and U. Zimmermann, 1982,Biochim. Biophys. Acta 694:227). The basic result is a formula for the time of membrane breakdown (up to the formation of pores): =(/C)/( _m ² ₀ ² U ⁴/24Gh ³+T ²/Gh–1), where is a proportionality coefficient approximately equal to ln(h/2₀),h being the membrane thickness and ₀ the amplitude of the initial membrane surface shape fluctuation ( is usually of the order of unity), represents the membrane shear viscosity,G the membranes shear elasticity modules, _m the membrane relative permittivity, ₀=8.85×10^–12 Fm,U the electric potential across the membrane, the membrane surface tension andT the membrane tension. This formula predicts a critical potentialU _c ;U _c =(24Gh ³/ _m ² ₀ ² )^1/4 (for = andT=0). It is proposed that the time course of the electric field-induced membrane breakdown can be divided into three stages: (i) growth of the membrane surface fluctuations, (ii) molecular rearrangements leading to membrane discontinuities, and (iii) expansion of the pores, resulting in the mechanical breakdown of the membrane.     

The immune response of allophenic mice to the synthetic polymer GLΦ

The immune response of allophenic mice of type C57BL/6(A × SJL) F₁ to GL administered in complete Freund's adjuvant was tested. Control mice of the three strains C57BL/6, A, and SJL are all nonresponders to this antigen. However, the F₁ generations of C57BL/6 × A, C57BL/6 × SJL, and A × SJL were all responders to the antigen, so that the complementarity of at least two genes is confirmed. The allophenic mice showed no further complementation beyond the F₁ generation, a result which may argue against the possibility that more than two genes control the response to GL in these mouse strains. Characterization of the allophenic mice over several months showed that they exhibit chimeric drift, both in their coat color and in peripheral white blood cell population. There is no apparent correlation of coat color to the lymphocyte composition of the mice at any one time. The mice are true chimeras, since killing of the two populations of white blood cells with two different anti-H-2 sera produced a 100 percent killing. The immune response of individual allophenic mice to GL showed a good correlation to the number of A × SJL lympho-cytes in the animal.Abbreviations used in this paper are GL an amino acid polymer of 57 %l-glutamic acid, 38%l-lysine, and 5%l-phenylalanine - GLT¹⁵ an amino acid polymer ofl-glutamic acid,l-lysine, and 15 %l-tyrosine - (T,G)-A-L an amino acid polymer having a polylysine backbone with side chains of polyd-l-alanine, terminating in short sequences of tyrosine and glutamic acid - GAT₁₀ an amino acid polymer of 60%l-glutamic acid, 30%l-alanine, and 10%l-tyrosine - GLA₅ an amino acid polymer of 57%l-glutamic acid, 38%l-lysine, and 5%l-alanine - DNP 2,4 dinitrophenyl - BGG bovine gamma globulin - FCS fetal calf serum - PWBC peripheral white blood cell - SWBC spleen white blood cell - T cell thymus-derived lymphocyte - B cell bone marrow-derived lymphocyte     

Growth,photosynthesis and transpiration in Psophocarpus tetragonolobus (L.) DC cultivar ‘UPS 99’

Two methods (whole-plant growth analysis and gas exchange) were used to measure the response of Psophocarpus tetragonolobus (L.) DC cultivar UPS 99 to the environment. This plant had an optimal temperature for root growth of 25°C, its rate of acetylene reduction (when inoculated with Rhizobium, strain RRIM 56) was maximal at 30°C and it required an atmospheric temperature of about 35°C for optimal shoot growth. Maximum water-use efficiency was ca. 33 mg CO₂·g H₂O^-1. The rate of photosynthesis reached a plateau at 900 vpm CO₂-this condition also gave the lowest rate of transpiration. Under normal conditions, the light compensation point was at 1.7 klx, while that for CO₂ was 60 vpm. Photorespiration diminished gross photosynthesis of P. tetragonolobus by forty percent. Water stress (as measured by sensitivity to slightly increased CO₂ levels) caused rapid closure of stomata, and the response was remembered for up to five days.

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Zusammenfassung Mit Hilfe von zwei Methoden (Wachstumsanalysen ganzer Pflanzen und Gaswechselmessungen) wurde die Reaktion von Psophocarpus tetragonolobus (L.) DC der Sorte UPS 99 auf Umwelteinflüsse ermittelt. 25°C war die optimale Temperatur für das Wurzelwachstum. Die Acetylenreduktionsrate (die Pflanzen waren geimpft worden mit Rhizobium RRIM 56) war am höchsten bei 30°C. 35°C waren notwendig für maximales Sproßwachstum. Der günstigste Wasserausnutzungskoeffizient lag bei ungefähr 33 (mg CO₂·g H₂O^-1). Die Photosyntheseraten wurden durch Erhöhung der CO₂-Konzentration gesteigert. Bei Konzentrationen über 900 vpm CO₂ konnte allerdings keine weitere Steigerung mehr festgestellt werden. Bei 900 vpm CO₂ waren die Transpirationsraten am niedrigsten. Unter normalen Bedingungen stellte sich der Lichtkompensationspunkt bei 1,7 klx ein. Der CO₂-Kompensationspunkt lag bei 60 vpm CO₂. Die Photorespiration verminderte die Photosynthese von P. tetragonolobus um 40%. Wasserstreß vergrößerte die Empfindlichkeit der Stomata gegenüber etwas erhöhten CO₂-Konzentrationen (die Stomata schließen). Diese Empfindlichkeit war bis zu 5 Tagen nach der Streßbehandlung noch meßbar.

     

Characterization of a new Bacillus stearothermophilus isolate: a highly thermostable α-amylase-producing strain

A novel strain of Bacillus stearothermophilus was isolated from samples of a potato-processing industry. Compared to known -amylases from other B. stearothermophilus strains, the isolate was found to produce a highly thermostable -amylase. The half-time of inactivation of this -amylase was 5.1 h at 80°C and 2.4 h at 90°C. The temperature optimum for activity of the -amylase was 70°C; the pH optimum for activity was relatively low, in the range 5.5–6.0. -Amylase synthesis was regulated by induction and repression mechanisms. An inverse relationship was found between growth rate and -amylase production. Low starch concentrations and low growth temperatures were favourable for enzyme production by the organism. At the optimal temperature for growth, 65°C, the -amylase was a growth-associated enzyme. The optimal temperature for -amylase production, however, was 40°C, with -amylase increasing from 3.9 units (U)/ml to 143 U/ml when lowering the growth temperature from 65°C to 40°C. Maximal -amylase production in a batch fermentor run at 65°C was 102 U/ml, which was 26-fold higher than in erlenmeyer flasks at 65°C. The dissolved O₂ concentration was found to be a critical factor in production of the -amylase.     

Role of ω-3 fatty acid desaturases in the regulation of the level of trienoic fatty acids during leaf cell maturation

Trienoic fatty acids, namely -linolenic acid and hexadecatrienoic acid, present in leaf lipids are produced by -3 fatty acid desaturases located in the endoplasmic reticulum and plastid membranes. The changes in the level of trienoic fatty acids during leaf maturation were investigated in wild-type plants of Arabidopsis thaliana (L.) Heynh. and in the fad7 mutant deficient in the activity of a plastid -3 desaturase. The levels of trienoic fatty acids increased in 26 °C- and 15 °C-grown wild-type plants with maturation of leaves. The increase in trienoic fatty acids was mainly due to galactolipids enriched in plastid membranes. In addition, the relative levels of trienoic fatty acids in major glycerolipids, including phospholipids enriched in the endoplasmic reticulum membranes, also increased with leaf maturation. By contrast, when the fad7 mutant was grown at 26 °C, the relative levels of trienoic fatty acids in individual lipids decreased with leaf maturation. The decreases in the levels of trienoic fatty acids, however, were alleviated when the fad7 mutant was grown at 15 °C. These results suggest that the plastid -3 desaturase plays a major role in increasing the levels of trienoic fatty acids with leaf maturation.Abbreviations 163 hexadecatrienoic acid - 183 -linolenic acid - DGD digalactosyldiacylglycerol - MGD monogalactosyldiacylglycerol - PC phosphatidylcholine - PE phosphatidylethanolamine - TA trienoic fatty acid - WT wild type - -3 refers to the position of the double bond from the methyl end of a fatty acid This research was supported in part by Grants-in-Aid for Scientific research (#07251214 and #06804050 to K.I.) from the Ministry of Education, Science and Culture, Japan, and by the research grant from Shorai Foundation.     

Brain temperature in pigeons: Effects of anterior respiratory bypass

Summary During heat stress in domestic pigeons (Columba livia, mean mass 0.43 kg) brain temperature (T _B) varied in parallel with colonic temperature (T _c). The difference between these (T _C–T _B=T) averaged 0.7°C and was not significantly altered when the animal breathed through a trachael cannula bypassing the buccopharyngeal cavity. When we sealed the nares and beak in bypass animals, T was significantly reduced but was nevertheless maintained at 0.4°C. When the eyes were sealed as well, however, T was reversed, amounting to –0.4°C. Conversely, with eyes sealed but beak and nares open, T was indistinguishable from that in controls. These results suggest a role for the cornea in evaporative cooling, at least when respiratory evaporation is impaired, and are consistent with the hypothesis that buccopharyngeal and corneal evaporation are coupled to brain cooling. The probable mechanism for this coupling is the flow of venous blood from evaporative surfaces through theretia mirabilia in the temporal areas. Here heat is transferred from the warmer arterial blood flowing through theretia toward the brain to the centrally flowing, cooler venous blood.     

Diversity,metabolic types and δ13C carbon isotope ratios in the grass flora of Namibia in relation to growth form,precipitation and habitat conditions

The grass flora of Namibia (374 species in 110 genera) shows surprisingly little variation in ¹³C values along a rainfall gradient (50–600 mm) and in different habitat conditions. However, there are significant differences in the ¹³C values between the metabolic types of the C4 photosynthetic pathway. NADP-ME-type C4 species exhibit the highest ¹³C values (–11.7 ) and occur mainly in regions with high rainfall. NAD-ME-type C4 species have significantly lower ¹³C values (–13.4 ) and dominate in the most arid part of the precipitation regime. PCK-type C4 species play an intermediate role (–12.5 ) and reach a maximum abundance in areas of intermediate precipitation. This pattern is also evident in genera containing species of different metabolic types. Within the same genus NAD species reach more negative ¹³C values than PCK species and ¹³C values decreased with rainfall. Also in Aristida, with NADP-ME-type photosynthesis, ¹³C values decreased from –11 in the inland region (600 mm precipitation) to –15 near the coast (150 mm precipitation), which is a change in discrimination which is otherwise associated by a change in metabolism. The exceptional C3 species Eragrostis walteri and Panicum heterostachyum are coastal species experiencing 50 mm precipitation only. Many of the rare species and monotypic genera grow in moist habitats rather than in the desert, and they are not different in their carbon isotope ratios from the more common flora. The role of species diversity with respect to habitat occupation and carbon metabolism is discussed.     

Phase transitions in plant cuticles

The effect of temperature on wet plant cuticles has been investigated with the following techniques: Calorimetry, densitometry, spin-label electron-spin-resonance-(ESR)-spectroscopy, photo bleaching, and light and electron microscopy. At low temperatures cuticles ofCitrus aurantium L. andHedera helix show, at 16.3°C, a sharp transition (T0.5°C) with a latent heat of 4.7±0.5 J g^-1-cuticle. Below transition: The main orientation of the polymer matrix is parallel to the normal of the cuticle and the main orientation of the layer with soluble lipids is perpendicular to the normal. The cuticle is in a rigid state. Above transition (between 16.3°C and 38°C): Only the orientation of the polymer matrix has changed (tilted in parts). There exist several very sharp (T0.1°C) transitions (38°C, 41°C, 45°C, 49°C, ...) with a latent heat in the order of 0.4 J g^-1-cuticle. Above 38°C: The lamella of the soluble lipids is in a fluid state. Above 45°C there is a change in the molecular orientation of the soluble lipids as well as in the polymer matrix. The soluble lipids are mainly oriented parallel to the normal. The dry cuticles show no phase transition between 0°C and 200°C. At room temperature a dry/wet transition can be observed.Abbreviations ESR-spectroscopy electron-spin-resonance-spectroscopy     

Development and pigmentation of chlorosomes in Chloroflexus aurantiacus strain Ok-70-fl

The development of chlorosomes and their pigmentation were studied by growing Chloroflexus aurantiacus strain Ok-7o-fl first under conditions under which BChl c-synthesis is low (50°C, 2000 lux and 30°C, 1500 lux) and subsequently under conditions promoting high BChl c-synthesis (50°C, 400 lux). Electron microscopic observations on and chemical analyses of isolated cell components showed that in BChl c-depleted cells chlorosome-like structures (chlorosome bags) are attached to fragments of cytoplasmic membranes. These chlorosome bags exhibit a periodic fine structure caused by the construction of the baseplates of the chlorosomes. The baseplates are closely attached to the cytoplasmic membrane, they are rich in phospholipids and apparently contain a 790 nm-BChl a-complex. Chlorosome bags of BChl c-depleted cells always contain a limited amount of light-harvesting pigment complexes (BChlc, - and -carotene). The light-harvesting system is restored (50°C, 400 lux) by first refilling the existing chlorosome bags before cell division takes place.Abbreviations BChl Bacteriochlorophyll - LH Light-harvesting complex - RC Reaction center     

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.     

α°- and β°- Thalassemia in a Thai family: unusually mild homozygous β°-thalassemia without α-globin gene deletion

Summary Alpha-globin genes were analyzed by the direct method of DNA mapping using - and -globin specific probes in a Thai family in which the proposita was an unusually mild °-thalessemia homozygote. °-Thalessemia was found to be segregating in the family, inherited from the proposita's father by one of her younger sisters. However, °-thatlessemia was not detected by this DNA mapping in the proposita. The mild homozygous °-thalessemia in this family may result from interactions of a non-deletion -thalassemia, a gene responsible for high proteolytic activity permitting more balanced globin-chain levels, or from an unusually active hemoglobin F production in the proposita.     

Production of β-mannosidase and β-mannanase by an alkalophilic Bacillus sp.

Summary An alkalophilic bacterium producing high amounts of the cell-associated -mannosidase and extracellular -mannanase was isolated from soil. The isolate (AM-001) that grew well in alkaline pH media was identified as a strain of Bacillus sp. The optimal cultivation temperature for enzyme production was 31° C for -mannosidase and 37° C for -mannanase with the optimum production medium composed of 1% konjac powder, 0.2% yeast extract, 2% Polypepton, 0.1% K₂HPO₄, 0.02% MgSO₄ · 7H₂O and 0.5% Na₂CO₃. Optimum pH and temperature for -mannosidase were 7.0 and 55° C, and for -mannanase were 9.0 and 65° C.     

Acetate inhibition on growth of recombinant E. coli and expression of fusion protein TGFaα-PE40

Summary Acetate was inhibitory to the growth of early induced E. coli cells and their expression of fusion protein, transforming growth factor--Pseudomonas exotoxin 40 (TGF-PE40), but the inhibitory level was strain dependent For E. coli JM109 (pTAC-TGF57-PE40), 2 g/L of added acetate (3 g/L of total acetate in the medium) decreased TGFa-PE40 production by 38.0%. Acetate was less inhibitory to E. coli RR1, and RR1 was not affected by adding 2 g/L of acetate. However, 5 g/L of added acetate (6.7 g/L of total acetate in the medium) decreased TGF-PE40 production by 21.2%. These results indicate that higher acetate concentration was associated with inhibition of TGF-PE40 expression of E. coli JM109 during late induction.     

Regulation of glycogen phosphorylase in fat body ofCecropia silkmoth pupae

Summary Glycogen phosphorylase of pupal fat body of the silkmoth,Hyalophora cecropia, and its activation by different stimuli have been studied. Spectrophotometric assay in the direction of glycogenolysis, used in most of the experiments, indicated higher amounts of phosphorylasea than assay by release of P_i from glucose-1-phosphate; both assays, however, estimated changes in proportion of phosphorylasea equally. TheK _ms for P_i were estimated as 5 mM for phosphorylasea in the absence of AMP and 18 mM for phosphorylaseb with 2 mM AMP.When diapausing pupae were held at 4°C, fat body phosphorylase was quickly activated by conversion to thea form up to about 50% of the total, and then declined again after 30 days, when glycerol had accumulated in the hemolymph. Cold activation in vivo was quickly reversed at 25°C. Removal of the brain did not prevent cold activation. After storage at 15°C, sensitivity to cold activation was diminished. Locusts and crickets also showed activation of phosphorylase after chilling.Exposure of fat body to air, transfer to Ringer solution, or physical agitation, caused activation of phosphorylase which is classed as shock activation. After about 1 h incubation in Ringer at 25°C, this effect reversed spontaneously. Activation also occurred in fat body in vitro after transfer to 0°C (cold activation), and was reversed at 25°C. The previously reported inhibition of activation by glycerol, however, could not be consistently reproduced.In fat body homogenates, phosphorylaseb was converted to phosphorylasea by incubation with ATP and Mg²⁺, which indicates activity of phosphorylase kinase. In preparations treated with Sephadex G-25 and then incubated, the reverse conversion took place, which was inhibited by fluoride, and indicates activity of phosphorylase phosphatase.Cyclic AMP added to fat body in vitro, or theophylline either in vivo or in vitro, stimulated the activation of phosphorylase. In fat body in vitro, shock activation was paralleled by elevation of tissue cyclic AMP, whereas cold activation was not. Cyclic GMP did not stimulate activation, and showed no significant changes in tissue levels.It is concluded that the conversion of silkmoth pupal fat body phosphorylaseb to phosphorylasea can be stimulated by a shock-initiated mechanism involving cyclic AMP and a distinct cold-initiated mechanism independent of cyclic AMP.Abbreviations DTT dithiothreitol - cyclic AMP 3,5-cyclic adenosine monophosphate - cyclic GMP 3,5-cyclic guanosine monophosphate - P _i inorganic phosphate This investigation was begun in the Department of Biology, Yale University, New Haven, Connecticut, USA     

Evolutionary temperature adaptation of fish sarcoplasmic reticulum

Summary Sarcoplasmic reticulum has been isolated from the white muscle of 15 species of teleost fish adapted to diverse thermal environments. Evidence has been obtained that the Ca²⁺-dependent ATPase of fish sarcoplasmic reticulum has undergone evolutionary modification for function at different temperatures. Compared with tropical fish, cold adapted species have higher rates of Ca²⁺ transport and Ca²⁺-ATPase activities at low temperatures. Most species have linear Arrhenius plots over the temperature range 0–30°C. Activation enthalpies (H ) of the ATPase ranged from 53–190 kJ mol^–1 and were positively correlated with environment temperature. Activation entropy (S ) varied from negative values in cold adapted species to positive values in tropical fish.In contrast to the Ca²⁺-ATPase, the basal ATPase of fish sarcoplasmic reticulum showed no relationship between either ATPase activity or thermodynamic activation parameters and environmental temperature.Only the Ca²⁺-dependent ATPase is coupled to Ca²⁺ transport. The percentage of total ATPase activity which is Ca²⁺ activated is higher at low temperatures in cold than in warm adapted species. For example, ratios of Ca²⁺-dependent/total ATPase at 2°C varied from 80–98% in Arctic, Antarctic and North Sea species to only 2–50% in various tropical fish. Above 20°C, similar ratios in the range 80–98% were obtained for all species. The nature of the basal ATPase and mechanisms of temperature adaptation of fish sarcoplasmic reticulum are discussed.Abbreviations ET environmental temperature - EGTA ethylene glycol-bis (-aminolethyl ether)-N, N-tetraacetic acid - HEPES N-2-hydroxylpiperazine-N-2-ethanesulfonic acid - SR sarcoplasmic reticulum     

Characterization of groups of the zygomycete genusRhizopus

Rhizopus is a zygomycetous genus. Several species of this taxon may infect humans and lower animals. Seventeen isolates ofRhizopus species in three distinct morphological groups were studied: the stolonifer group (sporangiophores greater than 1 mm in height, sporangial diameters of 100–275 µm, branched rhizoids); the arrhizus group (sporangiophores greater than 1 mm in height, branched rhizoids, sporangial diameters of 100–240 µm); and the microsporus group (sporangiophores less than 0.8 mm in height, sporangial diameters less than 100 µm, simple rhizoids). Maximal growth temperatures were characteristic: the stolonifer group grew at 30°C, the arrhizus group grew at 36°C, and the microsporus group grew at 45°C. The DNA mol% G + C base composition of all isolates ranged from 34.9 to 40.2% Species within the three groups were grouped by DNA differences. The arrhizus group was most distinctive with a value of 34.9–36.3%; the stolonifer and microsporus groups had G + C values of 37.0–39.3% and 37.8–40.2%, respectively. Our research clarifies and defines the G-C values of the three important groups ofRhizopus species.