Disruption of energy transduction in sarcoplasmic reticulum by trypsin cleavage of (Ca2++Mg2+)-ATPase

Summary Proteolytic digestion of sarcoplasmic reticulum vesicles with trypsin has been used as a structural modification with which to examine the interaction between the ATP hydrolysis site and calcium transport sites of the (Ca²⁺+Mg²⁺)-ATPase. The kinetics of trypsin fragmentation were examined and the time course of fragment production compared with ATP hydrolytic and calcium uptake activities of the digested vesicles. The initial cleavage (TD 1) of the native ATPase to A and B peptides has no effect on the functional integrity of the enzyme, hydrolytic and transport activities remaining at the levels of the undigested control. Concomitant with the second tryptic cleavage (TD 2) of the A peptide to A₁ and A₂ fragments, calcium transport is inhibited. Kinetic analysis demonstrates that the rate constant for inhibition of calcium uptake is correlated with the rate constant of a fragment disappearance. Both Ca²⁺-dependent and total ATPase activities are unaffected by this second cleavage. Passive loading of vesicles with calcium and subsequent efflux measurements show that transport inhibition is not due to increased permeability of the membrane to calcium even at substantial extents of digestion. Steady-state levels of acidstable phosphoenzyme are unaffected by either TD 1 or TD 2, indicating that uncoupling of the hydrolytic and transport functions does not increase the turnover rate of the enzyme and that TD 2 does not change the essential characteristics of the ATP hydrolysis site. Sarcoplasmic reticulum (SR) vesicles were examined for the presence of tightly bound nucleotides and are shown to contain 2.8–3.0 nmol ATP and 2.6–2.7 nmol ADP per mg SR protein. The ADP content of SR remains essentially unchanged with TD 1 cleavage of the ATPase enzyme to A and B peptides, but declines upon TD 2 in parallel with the digestion of the A fragment and the loss of calcium uptake activity of the vesicles. The ATP content is essentially constant throughout the course of trypsin digestion. The results are discussed in terms of current models of the SR calcium pump and the molecular mechanism of energy transduction.     

Effect of mild heat treatment on the ATPase activity and proteolytic sensitivity of myosin subfragment-1

The K+-EDTA-activated ATPase activity of chymotryptic myosin subfragment-1 (S-1) decreased by 85-90% when S-1 was incubated over a 2-h period at 35 degrees C. Addition of F-actin, ATP, or ATP analogs, such as ADP or PPi, to S-1 before incubation at 35 degrees C prevented the loss of ATPase activity. The decrease in ATPase activity was also accompanied by changes in tryptic sensitivity. Instead of the normal peptide pattern--which is comprised of three heavy chain fragments (27K, 50K, and 20K)--only two fragments (27K and 20K) appeared on the sodium dodecyl sulfate-gel electrophoregram after limited tryptic digestion of thermally treated S-1. Addition of any ligand--e.g. ATP, ADP, pyrophosphate, or actin--which prevented the loss of ATPase activity during incubation at 35 degrees C also prevented the observed change in the tryptic peptide pattern of S-1. Tryptic digested S-1, whose heavy chain has been cleaved to 27K, 50K, and 20K fragments, also lost its ATPase activity upon mild heat treatment. The heat-treated trypsin-digested S-1 was subjected to a second tryptic digestion, which resulted in the disappearance of the 50K fragment, while the 50K fragment of tryptic S-1 not subjected to heat treatment was not susceptible to additional tryptic hydrolysis. The results indicate that the structural changes, that take place specifically in the 50K region of S-1 upon mild heat treatment, lead to both the loss of the ATPase activity and the changed tryptic sensitivity of S-1.     

Effects of temperature on ultrasound-assisted tryptic protein digestion

The effects of temperature on ultrasound-assisted tryptic protein digestion were comprehensively investigated using matrix-assisted laser desorption/ionization (MALDI) time-of-flight mass spectrometry. Three standard proteins, cytochrome c, myoglobin, and bovine serum albumin, were digested at 4 °C (ice), room temperature (20–25), 37, and 55 °C for 0 s, 30 s, 1 min, and 5 min, in an ultrasonic bath. We found that the number of identified peptides generally increased with increasing temperature or digestion time. Compared with conventional overnight digestion at 37 °C without ultrasonication, digestions performed under ultrasonication generally produced more peptides under most of the above listed conditions, mainly due to miscleaved peptides. Tryptic digestions were also performed under all the conditions evaluated without using ultrasound, where the most significant improvement with the application of ultrasound in terms of sequence coverage and the number of identified peptides was observed at 4 °C, followed by room temperature, and 37 °C, while no improvement was observed at 55 °C with the application of ultrasound, which may be due to the fact that the current experiments were performed in an ultrasonic bath.     

Characterization of the calcium paradox in the isolated perfused frog heart: enzymatic,ionic, contractile and electrophysiological studies

Summary The effect of perfusion temperature and duration of calcium deprivation on the occurrence of the calcium paradox was studied in the isolated frog heart. Loss of electrical and mechanical activity, ion fluxes, creatine kinase and protein release were used to define cell damage. Perfusion was performed at 22, 27, 32, and 37°C, and calcium deprivation lasted 10, 20, 30, or 40 min. At 22°C and 27°C even a prolonged calcium-free perfusion failed to induce a calcium paradox. After 30 min of calcium-free perfusion at 37°C ventricular activity ceased and a major contraction occurred followed by an increase in resting tension. During the 15-min re-perfusion period the release of creatine kinase was 158.24±2.49 IU·g dry wt^-1, and the total amount of protein lost was 70.37±0.73 mg·g dry wt^–1, while lower perfusion temperatures resulted in a decreased loss of protein and creatine kinase. Ion fluxes in the perfusion effluent indicate that during re-perfusion a massive calcium influx accompanied by a potassium and a magnesium efflux, and an apparent sodium efflux, occur at a perfusion temperature of 37°C after 30 min of calcium deprivation. The results suggest that the basic principles and damaging effects of calcium overloading are common to both mammalian and frog hearts.     

Production of a thermostable ATPase by the facultative thermophile,Bacillus coagulans

The properties of the ATPase in the facultative thermophile, Bacillus coagulans, grown at thermophilic or mesophilic temperatures were similar. Arrhenius plots did not show discontinuities indicative of thermoadaptation. Magnesium stimulation of the enzyme was dependant on the assay temperature but independant of the growth temperature. The ATPase in cells grown at 35°C or 55°C was equally thermostable at 65°C. In contrast, the ATPase from the mesophile, Bacillus megaterium (T _max=42°C) was completely inactivated at 55°C in 5 min.     

Uncoupling of Occlusion From ATP Hydrolysis Activity in Sarcoplasmic Reticulum (Ca2++Mg2+)-ATPase

The uncoupling of Ca²⁺ transport from ATP hydrolysis in the sarcoplasmic reticulum (Ca²⁺ + Mg²⁺)-ATPase by trypsin digestion was re-investigated by comparing ATPase activity with the ability of the enzyme to occlude Eu³⁺ (a transport parameter) after various tryptic digests. With this method, re-examination of uncoupling by tryptic digest of the ATPase revealed that TD2 cleavage (Arg-198) had no effect on either occlusion or ATPase activity. Digestion past TD2 in the presence of 5 mM Co²⁺ and at 25°C resulted in the loss of about 70% of the ATPase activity, but no loss of occlusion. Digestion past TD2 in the presence of 5 mM Ca²⁺, 3 mM ATP, and at 25°C resulted in a partially uncoupled enzyme complex which retained about 50% of the ATPase activity, but completely lost the ability to occlude Eu³⁺. Digest past TD2 in the presence of 5 mM Ca²⁺ and 3 mM AMP-PNP. (a non-hydrolyzable ATP analog) at 25°C resulted in no loss of occlusion, thus revealing the absolute requirement of ATP during the digest to eliminate occlusion. From these findings we conclude that uncoupling of Ca²⁺ transport from ATPase activity is possible by tryptic digestion of the (Ca²⁺ + Mg²⁺)-ATPase. Interestingly, only after phosphorylation of the enzyme do the susceptible bond(s) which lead to the loss of occlusion become exposed to trypsin.     

The Ca<Superscript>2+</Superscript>-ATPase of the Scallop Sarcoplasmic Reticulum Is of a Cold-adapted Type

At 0 to 20°C, the Ca²⁺-ATPase activity of the scallop sarcoplasmic reticulum (SR) was observed to be 7–60% of the peak activity at 30°C, while the ATPase activity of the rabbit SR was 0–7% of its peak at 55°C. The relative rabbit ATPase activity (0.7–7.0%) at 7–20°C became higher (6–15 times) and lower (1/4–1/2), respectively, by the solubilization of the rabbit ATPase with a detergent, dodecyloctaethylenglycol monoether, and by the reconstitution of the ATPase with asolectin (soybean lecithin). No activity at 0°C remained irrespective of these treatments. The relative scallop ATPase activity at 0–20°C was, however, scarcely affected by such solubilization and reconstitution. In contrast to the rabbit ATPase, the scallop ATPase seems to be capable of operating independently without the help of the membrane lipid at low temperature.     

Calcium regulatory proteins and temperature acclimation of actomyosin ATPase from a eurythermal teleost (Carassius auratus L.)

Summary Goldfish (Carassius auratus) were acclimated for 5 months at temperatures of either 2°C or 31°C. Natural actomyosin was prepared from white myotomal muscle and its Mg²⁺Ca²⁺ ATPase activity determined. Temperature acclimation results in adaptations in substrate turnover number and thermodynamic activation parameters of the ATPase. When assayed at 31°C the Mg²⁺Ca²⁺ ATPase of natural actomyosin was 4 times higher in 31°C than 2°C acclimated fish. Arrhenius plots of natural actomyosin ATPase from cold acclimated fish show a break in slope at 15–18°C. In contrast, the temperature dependence of warm acclimated actomyosin was linear. Activation enthalpy (H ) of the ATPase, calculated over the range 0–16°C, was approximately 8,000 cal/mole lower in 2°C than 32°C acclimated fish.In contrast, desensitised actomyosins from which the calcium regulatory proteins have been removed show a linear temperature dependence in the range 0–32°C and have similar properties in 2°C and 31°C acclimated fish. Cross-hybridisation of regulatory proteins (tropomyosin-troponins complex) from cold-acclimated fish to desensitised actomyosin from warm-acclimated fish alters the ATPase towards that of cold-acclimated natural actomyosin and vice versa. The results suggest that the regulatory proteins can influence the kinetics of the ATPase and, furthermore, that they are involved in the acclimation of the actomyosin to different cell temperatures.     

Tightly bound calcium of adenosine triphosphatase in sarcoplasmic reticulum from rabbit skeletal muscle

Sarcoplasmic reticulum vesicles were shown to possess a class of tightly bound calcium ions, inaccessible to the chelator, ethylene glycol bis(beta-aminoethyl ether) N,N,N',N'-tetraacetic acid at 0 degrees C or 25 degrees C, amounting to 4.5 nmol/mg of protein (approximately 0.5 mol/mol (Ca2+,Mg2+)-ATPase). The calcium ionophores, A23187 and X537A, induced rapid exchange of tightly bound calcium in the presence of chelator. Chelator alone at 37 degrees C, caused irreversible loss of bound calcium, which correlated with uncoupling of transport from (Ca2+,Mg2+)-ATPase activity. Uncoupling was not accompanied by increased permeability to [14C]inulin. Slow exchange of tightly bound calcium with medium calcium was unaffected by turnover of the ATPase or by tryptic cleavage into 55,000- and 45,000-dalton fragments. Binding studies with labeled calcium suggested that tight binding involves a two-step process: Ca2+ + E in equilibrium K E . Ca2+ leads to E < Ca2+ where E and < Ca2+ represent the ATPase and tightly bound calcium, and K = 1.6 X 10(3) M-1. It is suggested that tightly bound calcium is located in a hydrophobic pocket in, or in close proximity to the ATPase, and, together with tightly bound adenine nucleotides (Aderem, A., McIntosh, D. B., and Berman, M. C. (1979) Proc. Natl. Acad. Sci. U. S. A. 76, 3622-03632), is related to the ability of the ATPase to couple hydrolysis of ATP to vectorial transfer of calcium across the membrane.     

Temperature acclimation and the expression of contractile protein isoforms in the skeletal muscles of the common carp (Cyprinus carpio L.)

Summary Common carp (Cyprinus carpio L.) were acclimated to either 2, 5, 8, 11, 15, 20, or 23°C for 12 weeks (12 h light: 12 h dark). Fish did not feed after 6 weeks at temperatures below 8°C. Skinned fibres were prepared from fast myotomal muscle by freeze-drying. Measured at 0°C unloaded contraction velocity (Vmax) and maximum isometric tension generation (Po) were 2–3 times higher in the 11°C-than 23°C-acclimated groups, and had intermediate values in 15 °C-acclimated fish. Po and Vmax at 0°C were not significantly different for carp maintained at 2, 5, 8, or 11°C. Measured at the acclimation temperature of each group Vmax and Po were 51% and 71% lower for fibres from 2°C- than 23°C-acclimated fish. The results indicate a partial capacity adaptation of muscle power output in fish acclimated between 11°C and 23°C. At 8°C the ATPase activity of myofibrils was 2 times higher in fish acclimated to 8°C than to 20°C. The effects of temperature acclimation on the protein composition of myofibrils was investigated using one- and two-dimensional electrophoresis. Peptide maps of purified myosin heavy chains and actin prepared by proteolytic digestion with either Staphylococcus aureus V8 protease or chymotrypsin were similar for both acclimation groups. The molecular weights and isoelectric points of the major isoforms of tropomyosin, troponin C, troponin I, troponin T, and myosin light chains (MLC1, MLC2 and MLC3) were also similar in 8°C- and 20°C-acclimated carp. A 20 kDa molecular weight protein with a pI intermediate between that for MLC2 and MLC3 was found in myofibrils and single fibres from carp acclimated to 8°C but was not present in carp acclimated to 20°C. It is suggested that this band corresponds to a myosin light chain isoform unique to cold-acclimated fish. Evidence was also obtained that myofibrils from warm-acclimated fish contained a second minor isoform of troponin I.     

A mutant rho ATPase from Escherichia coli that is temperature-sensitive in the presence of RNA

Summary The Escherichia coli mutant rho-115 suppresses lac operon polarity conferred by the lacZ::IS1 insertion MS319. The ATPase activity of purified rho-115 protein was maximal at 40°C, in contrast to 45°C for rho ⁺. At higher temperatures (50°C, 55°C), the fractions of activities at maximal temperature were consistently lower for rho-115 compared to rho ⁺. The 30-minute time course of rho-115 ATP hydrolysis was linear at 37°C but at 45°C the linear kinetics of hydrolysis reached a plateau between 10 and 15 minutes. The 30-minute time courses for rho ⁺ were linear at both 37°C and 45°C. The rho-115 and rho ⁺ ATPase activities were equally heat-stable during preincubation at 45°C in buffer. Inclusion of ATP during preincubation protected these rho proteins from inactivation to the same extent. The presence of polyC during preincubation protected rho ^- activity but produced substantial inactivation of rho-115 ATPase. The presence of polyU during preincubation gave similar results. Concentrations of polyC between 625 ng/ml and 100 g/ml yielded the same extent of rho-115 ATPase inactivation during preincubation at 45°C. Thermal inactivation of rho-115 ATPase by polyC was halted by shifting preincubation temperature from 45°C to 35°C, indicating that polyC-induced destabilization of rho-115 was irreversible.     

Osmotic water permeability of small intestinal brush-border membranes

Summary A stopped-flow nephelometric technique was used to examine osmotic water flow across small intestinal brush-border membranes. Brush-border membrane vesicles (BBMV) were prepared from rat small intestine by calcium precipitation. Scattered 500 nm light intensity at 90° to incident was a linear function of the number of vesicles in suspension, and of the reciprocal of the suspending medium osmolality. When BBMV were mixed with hyperosmotic mannitol solutions there was a rapid increase in the intensity of scattered light that could be fit to a single exponential function. The rate constant for vesicle shrinking varied with temperature and the size of the imposed osmotic gradient. At 25°C and an initial osmotic gradient of 50 mOsm, the rate constant was 1.43±0.044 sec^–1. An Arrhenius plot of the temperature dependence of vesicle shrinking showed a break at about 25°C with an activation energy of 9.75±1.04 kcal/mole from 11 to 25°C and 17.2±0.55 kcal/mole from 25 to 37°C. The pore-forming antibiotic gramicidin increased the rate of osmotically driven water efflux and decreased the activation energy of the process to 4.51±0.25 kcal/mole. Gramicidin also increased the sodium permeability of these membranes as measured by the rate of vesicle reswelling in hyperosmotic NaSCN medium. Gramicidin had no effect on mannitol permeability. Assuming spherical vesicles of 0.1 m radius, an osmotic permeability coefficient of 1.2×10^–3 cm/sec can be estimated for the native brush-border membranes at 25°C. These fesults are consistent with the solubility-diffusion model for water flow across small intestinal BBMV but are inconsistent with the existence there of large aqueous pores.     

Tryptic digestion of sarcoplasmic reticulum inhibits Ca2+ accumulation by action on a membrane component other than the Ca2+-ATPase

We have reexamined the "uncoupling" of Ca2+ transport from ATP hydrolysis, which has been reported to be caused by trypsin cleavage of the Ca2+-ATPase of sarcoplasmic reticulum (SR) vesicles at the second (slower) of two characteristic tryptic sites (Scott, T. L., and Shamoo, A. E. (1982) J. Membr. Biol. 64, 137-144). We find that the loss of Ca2+ accumulation capacity in SR vesicles is poorly correlated with this cleavage under several conditions. The loss is accompanied by increased Ca2+ permeability but not by changes in the properties of the ATPase or ATP-Pi exchange activities of the vesicles. Proteoliposomes containing purified Ca2+-ATPase which has been cleaved in part at the two tryptic sites are as well coupled and impermeable to Ca2+ as proteoliposomes containing intact Ca2+-ATPase. We conclude that the loss of Ca2+ accumulation capacity in SR vesicles on tryptic treatment is due to cleavage of a SR membrane component other than the Ca2+-ATPase, possibly a component of the gated channels which function in Ca2+ release from SR, which leads to a Ca2+ leak. The hydrolytic and coupled transport functions of the Ca2+-ATPase itself may well be unaffected by the two tryptic cleavages.     

Interactions between photoperiodism and temperature with respect to the control of dormancy in the adult stage of Pterostichus oblongopunctatus F. (Col., Carabidae)

Summary Pterostichus oblongopunctatus belongs to the type of spring breeding carabids with adult hibernation. Ovarian maturation is under the control of photoperiod: the females need a change of day length to mature. The first step of egg maturation (previtellogenesis) is bound to short day, the second step (vitellogenesis) to long day.The short day effect is achieved almost only at temperatures of 10 to 15°C; it is completely suppressed by 20°.The males mature under very different photoperiods and temperatures, but long day diminishes the percentage of mature males slightly, as well as does the higher temperature of 20°C in short day as compared with 15°C.Simulation of climatic conditions as experienced by the beetles from autumn throughout winter until spring in the laboratory showed that a short span of favourable temperatures at short day as experienced in nature in autumn allows the females to accomplish the short day development. But this maturation effect is still more diminished the longer temperatures below 5°C act on the beetles. Following that, a second period of temperatures between 10–15°C must restore the short day maturation effect if full maturity shall be gained in the following long day.The beetles are able to store reserve materials under long day at 20°C. After such a period they are able to have a normal previtellogenesis in spite of a severe shortage of food during short day. These experiments indicate that the failure in short day development outside the temperature range of 10–15°C is not a matter of an especially well balanced over-all metabolism in this favourable temperature range. It seems rather that hormonal systems involved in the short day phase of oogenesis act only within this span of temperature.Supportet by the Deutsche Forschungsgemeinschaft.     

A study of calcium compartments in rat brain cortex thin slices: Effects of veratridine,lithium and of a mitochondrial uncoupler

The efflux kinetics of⁴⁵Ca from rat brain cortex thin slices previously equilibrated with it, was studied in a superfusion system. Two first order kinetic components of efflux from the tissue were found: k₂=0.0667 min^–1, that was unchanged by lowering the temperature from 37°C to 15°, and k₃=0.0167 min^–1 at 37°C, that was reduced to 0.0897 min^–1 at 15°C. This suggests that k₂ represents efflux from the extracellular space, and k₃ that from the cellular compartment. Addition of the mitochondrial uncoupler carbonyl cyanide,m-chlorophenylhydrazone (CCCP) (10^–5 M) increased the efflux fractional rate constant of⁴⁵Ca by 35%, while no change in efflux was induced by 10 mM caffeine. Veratridine (10^–5M) drastically reduced⁴⁵Ca efflux if superfusion was with physiological salt solution (150 mM sodium present), but not if 50 mM lithium replaced an equivalent amount of sodium in the superfusion fluid. This lithium-containing solution did not affect⁴⁵Ca efflux in the absence of veratridine. These results indicate that mitochondria accumulate only a minor fraction of intracellular⁴⁵Ca; that⁴⁵Ca possibly turns over very rapidly in the endoplasmic reticulum, and that most of⁴⁵Ca is present in a different, non-mitochondrial, non endoplasmic reticular compartment, the nature of which can be only conjectured.     

Effect of pressure and calcium on the reversible inhibition of the sarcoplasmic-reticulum calcium-transport enzyme and on its tryptic cleavage pattern

The reversible inhibition of the sarcoplasmic-reticulum calcium-transport enzyme by pressure at room temperature is accompanied by a significant enhancement of the accessibility of the enzyme to tryptic cleavage dependent on the presence of calcium. The calcium-transport enzyme activity was monitored with dinitrophenyl phosphate as substrate. Pressure in the range 0.1-100.0 MPa affects trypsin cleavage of the control substrate N-alpha-benzoyl-L-arginine-4-nitroanilide hydrochloride little in the presence and absence of calcium. In contrast, application of 100.0 MPa to the calcium-transport enzyme at room temperature accelerates subsequent tryptic cleavage at the T2 but not at the T1 cleavage site [C. J. Brandl et al. (1986) Cell 44, 597-607]. Pressure application during tryptic digestion likewise solely affects cleavage at T2 which proceeds slowly in the absence but rapidly in the presence of calcium. At atmospheric pressure in the absence of calcium and at high pressure in the absence and presence of calcium new cleavage sites are exposed giving rise to new subfragments B1-3 in addition to the established peptides A1 and A2. Under pressure and in the presence of calcium, A1 and A2 rapidly disappear indicating the presence of calcium-binding sites in these peptides. In contrast, the B1-3 peptides which are most likely derivates of the B fragment accumulate in the presence and absence of calcium. In contrast to tryptic cleavage at atmospheric pressure, tryptic cleavage of the A as well as the B fragment tends to completion under pressure. In parallel to the disappearance of the A and B fragments calcium-dependent substrate hydrolysis vanishes. Computation of activation volumes for pressure-induced reversible enzyme inhibition and for tryptic cleavage furnished closely related volumes of opposite signs of 20-40 ml/mol and 80-100 ml/mol in the ranges 0.1-40.0 MPa and 40.0-100.0 MPa, respectively. Thus pressure produces reversible changes in the calcium-transport enzyme which activates and modifies tryptic-cleavage patterns at the T2 site of the A segment and at sites in its subfragments in the presence of calcium, i.e. if the enzyme residues in its E1 state. In contrast tryptic cleavage of the B fragment is accelerated by pressure independently of the presence of calcium.     

In vitro and in situ studies on nitrate disappearance in water-sediment systems of the Camargue (southern France)

Results of in vitro and in situ experiments on nitrate disappearance from water-sediment systems in the Camargue are described.In the in vitro experiments two factors were studied: temperature and organic matter. After a first addition of KNO₃ to these sediments, the concentration of organic matter exerted a strong influence on the disappearance rate of nitrate at 25 °C and 15 °C but not at 2 °C. After a second addition of nitrate at 25 °C and 15 °C the denitrification rate increased by approximately 10%, probably because the activity of the bacterial population had increased.Experiments in situ in freshwater temporary marshes showed that nitrate disappeared at approximately twice the rate at similar temperature in vitro.After the first addition of nitrate in the in vitro experiments the concentration of nitrite in the water above the sediment reached about 10% of the concentration of total dissolved inorganic nitrogen at 2 °C and 15 °C. These high concentrations were not found after the first addition at 25 °C or after the second addition of nitrate at 25 °C and 15 °C. In the in situ experiments, however, high concentrations of nitrite were found.     

Fate of bacterial pathogens in cattle dung slurry subjected to anaerobic digestion

The survival of certain pathogenic bacteria was studied in anaerobic batch digesters at room temperature (18–25 °C) as well as at 35 °C under laboratory conditions. The survival of Escherichia coli and Salmonella typhi at room temperature was upto 20 days whereas at 35 °C it was only upto 10 days. Shigella dysenteriae was found to be the most sensitive organism which could survive upto 10 days at room temperature and upto 5 days at 35 °C. The longest survival was observed in case of Streptococcus faecalis which could survive upto 35 days at room temperature and 15 days at 35 °C. The survival time of Salmonella typhi increased when the solid contents of the digester were elevated from 9% to 15%.     

Temperature/toxicity relationships of some pyrethroids onCenopalpus pulcher (Acari: Acaridae)

Relationships between post-treatment temperature and toxicity of four synthetic pyrethroids, bioallethrin,d-phenothrin, fenvalerate and cypermethrin, to the fruit-tree false spider mite,Cenopalpus pulcher (Canestrini and Fanzago) were determined in the laboratory. Pyrethroids were evaluated by the slide-dip technique at three post-treatment temperatures, 15, 25 and 35°C.Bioallethrin,d-phenothrin and fenvalerate exhibited positive temperature coefficients againstC. pulcher at all temperature ranges tested. On the other hand, cypermethrin displayed a neutral temperature coefficient at 25–35°C and negative temperature coefficients at 15–25°C and 15–35°C temperature ranges.     

Changes in Parameters of the Plasmalemma ATPase during Peach Vegetative Bud Dormancy

Plant dormancy and dormancy breaking depend, at least partially, on close relationships between buds and tissues underlying bud (bud stands). In Prunus persica, the dormancy was related to high nutrient absorption in bud stands linked to high plasmalemma ATPase (EC 3.6.1.3) activity. Two plasmalemma fractions was isolated from peach vegetative buds and bud stands using aqueous phase partitioning and ultracentrifugation. Results of markers enzyme assays indicated that both plasmalemma enriched fractions obtained were highly purified. During the dormancy period plasma membrane ATPase amount and activity were higher in bud stands than in buds. Moreover, assays performed at different temperatures (4, 18, 30 °C) indicated modifications of kinetic parameters (K_m, V_m) in both tissues during dormancy release. In buds, from November to February, K_m declined at 4°C and increased at 30 °C whereas no changes was measured at 18 °C and V_m increased at all temperature. In bud stands, no changes of K_m was measured at 4 °C and 18 °C whereas an increase occurred at 30 °C and V_m decreased at all temperature. According to the results, it can be postulated that dormancy release in peach-tree could be related to modifications of plasma membrane ATPase properties, in buds and bud stands, during winter time.