The decomposition of tylosin fermentation waste in soil at four temperatures

Summary Aerobic decomposition of tylosin fermentation waste was studied by O₂ uptake and CO₂, NH₄ ⁺ and NO₃ ^– release over 10 weeks in a light compost-soil at 3 concentrations and 4 temperatures. Comparisons of O₂ uptake and CO₂ release at each temperature showed that aerobic conditions were maintained in the system. Maximal rates of respiration (C mineralization) increased with temperature. At 23°C 50% of the substrate C had been mineralized in 10 weeks. At 10–15°C and at 4°C C mineralization was approximately 38% and 22% respectively. Except at 4°C mineralization had almost ceased within 10 weeks. There was evidence of a permanent inhibition of C mineralization at 10–15°C compared with 23°C, and a temporary inhibition at 10°C compared with 15°C.At 10 weeks 25% of the N had been mineralized at 23, 15 and 10°C, while 14% had been mineralized at 4°C. The time taken to reach maximum N mineralization was reduced by increase in temperature and by 10 weeks mineralization had almost ceased at 15 and 23°C. In terms of the fertilizing effect of tylosin fermentation, 25% of the total N was available within 10 weeks at 10–23°C. Nitrification was strongly inhibited at 4 and 10°C. Both C and N mineralization were in direct proportion to the concentration of tylosin fermentation waste added to the soil.     

Red cell hydrolases

Summary A 0.1% Triton X-100 extract of human erythrocyte plasma membranes contained high proteolytic activity as determined by a very sensitive assay utilizing³H-acetylated hemoglobin (162 cpm/pmole) as a substrate. Two proteolytic enzymes having optimum activity at pH 3.4 and pH 7.4 were isolated from Sephadex G-100. The protease active at pH 3.4 was 75 times as active as the pH 7.4 enzyme and it was purified 182-fold over the original homogenate and characterized. A linear relationship for activity versus time and activity versus concentration of enzyme was found. The optimum temperature was 37°C and theK _m was 1×10^–5 m hemoglobin. No enzyme activation was observed with any cation studied and EDTA had no inhibitory effect; (10mm Fe⁺³ and Hg⁺² were inhibitory). The pH 3.4 protease was stable indefinitely at –20°C in 0.1% Triton X-100. Gel electrophoresis was performed on a sodium dodecylsulfate-mercaptoethanol enzyme preparation and two protein bands (mol. wt. 33,000 and 54,000) were evident for the Sephadex G-200 eluate containing the pH 3.4 protease.     

Cyclic AMP-dependent regulation of activities of synthetase and phosphodiesterase of 2′,5′-oligoadenylate in NIH 3T3 cells

Summary Dihydrofolate synthetase (EC 6.3.2.12) from N. gonorrhoeae was isolated and enzyme characteristics were determined. The purified enzyme was found quite stable when stored at –60 °C. About 50% of the enzyme activity wag destroyed within 6 weeks when kept at 4 °C. Maximum velocity was observed at pH 9.3. The enzyme required a monovalent cation, K⁺ or NH₄ ⁺ , and divalent cation, Mg²⁺ or Mn²⁺ for its function. ATP at 5 mM concentration gave maximum activity. K_m values for dihydropteroate and L-glutamate at pH 9.3 were 3.5 × 10^–5 M and 6.5 × 10^–4 M, respectively. Patterns of product inhibition by dihydrofolate were found to be non-competitive with respect to dihydropteroate, having a K_i value of 5.1 ± 0.8 × 10^–4 M, and competitive with respect to L-glutamate, having a K_i value of 6.2 × 10^–4 M.     

Soil and fertilizer nitrogen transformations under alternate flooding and drying moisture regimes

Summary A study of changes in NH₄ ⁺ and NO₃ ^––N in Maahas clay amended with (NH₄)₂SO₄ and subjected to 4 water regimes in the presence and absence of the nitrification inhibitor N-Serve (Nitrapyrin) showed that the mineral N was well conserved in the continoous regimes of 50% and 200% (soil weight basis) but suffered heavy losses due to nitrification-denitrification under alternate drying and flooding. N-Serve was effective in minimizing these losses.Another incubation study with 3 soils showed that after 10 cycles of flooding and drying (either at 60°C or 25°C), the ammonification of soil N was enhanced. Nitrification of soil as well as fertilizer NH₄ ⁺ was completely inhibited upto 4 weeks by the treatments involving drying at high temperature. Flooding and air drying at 25°C, on the other hand, enhanced ammonification of soil N but retarded nitrification. These treatments, however, enhanced both ammonification and nitrification of the applied NH₄ ⁺ fertilizer N. Under flooded conditions rate of NH₄ ⁺ production was faster in soils that were dried at 60°C or 25°C and then flooded as compared to air dried soils.It is concluded that N losses by nitrification-denitrification and related N transformations may be considerably altered by alternating moisture regimes. Flooding and drying treatments seem to retard nitrification of soil N but conserve that of fertilizer NH₄ ⁺ applied after these treatments.     

The inhibitory activity of a brain extract on synaptosomal Na+,K+-ATPase is sensitive to carboxypeptidase A and to chelating agents

In the present study some properties of an inhibitory extract of synaptosomal membrane Na⁺,K⁺-ATPase were investigated. This extract (peak II) was prepared by gel filtration in Sephadex G-50 of a soluble fraction of the rat cerebral cortex. Ultrafiltration of peak II through Amicon membranes indicated that the inhibitor has a low MW (<1000). The inhibitory activity was not modified by heating in neutral pH at 95°C for 20 min but it was destroyed by charring in acid pH at 200°C for 120 min. The inhibitory activity decreased by incubation of peak II with carboxypeptidase A. These findings suggest that the factor responsible for the inhibition of Na⁺,K⁺-ATPase activity is probably a polypeptide. On the other hand, the inhibition was reverted by the chelators EDTA and EGTA, indicating the participation of an ionic compound as well. The increase of Mg²⁺ concentration during the enzyme assay did not increase the inhibition, indicating that the ion involved might not be vanadate. It is suggested that both a polypeptide and an ionic compound coparticipate in the inhibitory effect of peak II on Na⁺,K⁺-ATPase activity.     

Alkaline phosphatase activities in muscle of the euryhaline crab Chasmagnathus granulatus: Response to environmental salinity

The occurrence, characteristics and response to environmental salinity of alkaline phosphatase (AP) activity were studied in chela muscle of the euryhaline crab Chasmagnathus granulatus from Mar Chiquita coastal lagoon (Buenos Aires Province, Argentina). Chela muscle exhibited a levamisole-insensitive and a levamisole-sensitive AP activities with distinct characteristics. Levamisole-insensitive activity appeared to be maximal at pH 7.7, whereas levamisole-sensitive AP activity was similar with the range of pH 7.4 to 8.0. Both activities at pH 7.7 exhibited a Michaelis-Menten kinetics (K_m = 0.789 and 1.416 mM, respectively). I₅₀ for levamisole-sensitive AP activity was about 12 mM. Levamisole-insensitive and levamisole-sensitive AP activities were differentially affected by temperature. Levamisole-sensitive AP activity was quite sensitive to temperature, exhibiting a peak at 37 °C but being low at 5 to 30 °C and 45 to 60 °C. Both activities were inhibited by Cu²⁺. At 1.0 mM Cu²⁺, levamisole-insensitive AP activity was inhibited about 82% whereas levamisole-sensitive AP activity was almost completely inhibited. Levamisole-insensitive AP activity appeared to be sensitive to environmental salinity. In crabs acclimated to low salinity (10‰) this activity was lower than in 35‰ salinity. The response to environmental salinity suggests that levamisole-insensitive AP activity could be a component of muscle regulatory mechanisms at the biochemical level secondary to hyperregulation of C. granulatus. The possible physiological roles and functional relationship of AP activity with Na⁺/K⁺ ATPase in muscle are discussed.     

Intracellular levels of polyadenylated RNA and loss of vigour in germinating wheat embryos

Polyadenylated-RNA (Poly(A)⁺RNA) levels have been studied during the germination of wheat embryos of high viability but differing vigour. In high-vigour embryos imbibed at 20°C the level of poly(A)⁺RNA falls dramatically over the first hour of imbibition, then remains constant up to 3 h of imbibition before increasing rapidly to a level similar to that found in the quiescent state by 7 h of imbibition. Median-vigour embryos imbibed at 20°C show similar changes in poly(A)⁺RNA content but the initial decrease and subsequent increase in poly(A)⁺RNA levels are less marked. On imbibition at 10°C, the poly(A)⁺RNA content in high-vigour embryos decreases to a lesser extent during the first hour than at 20°C and the level increases more slowly over the next 6 h than during the same time period at 20°C. The level of poly(A)⁺RNA in medianvigour embryos remains constant over the first 4 h of germination and then falls to a level of about half that found in quiescent high-vigour embryos. Polyacrylamide gel electrophoresis of total-RNA samples shows that the polyadenylic acid (poly(A)) sequences occur in RNA species ranging in size from 35-7S. Polyacrylamide gel electrophoresis of isolated poly(A) sequences demonstrates the presence of two size classes of poly(A) in quiescent embryos, but at 20°C a more heterodisperse pattern appears by 2 h of imbibition. At 10°C, two size classes of poly(A) persist throughout the period studied in both high- and median-vigour embryos, although in median-vigour embryos the ratio of larger: smaller poly(A)-tail sizes decreases more rapidly than in high-vigour embryos.Abbreviations Poly(A) polyadenylic acid - poly(U) polyuridylic acid - poly(A)⁺RNA polyadenylated RNA     

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.     

Leishmania amazonensis: Heme stimulates (Na + K)ATPase activity via phosphatidylinositol-specific phospholipase C/protein kinase C-like (PI-PLC/PKC) signaling pathways

In the present paper we studied the involvement of the phosphatidylinositol-specific PLC (PI-PLC)/protein kinase C (PKC) pathway in (Na⁺ + K⁺)ATPase stimulation by heme in Leishmania amazonensis promastigotes. Heme stimulated the PKC-like activity with a concentration of 50 nM. Interestingly, the maximal stimulation of the PKC-like activity promoted by phorbol ester was of the same magnitude promoted by heme. However, the stimulatory effect of heme is completely abolished by ET-18-OCH₃ and U73122, specific inhibitors of PI-PLC. (Na⁺ + K⁺)ATPase activity is increased in the presence of increased concentrations of heme, being maximally affected at 50 nM. This effect was completely reversed by 10 nM calphostin C, an inhibitor of PKC. Thus, the effect of 50 nM heme on (Na⁺ + K⁺)ATPase activity is completely abolished by ET-18-OCH₃ and U73122. Taken together, these results demonstrate that the heme receptor mediates the stimulatory effect of heme on the (Na⁺ + K⁺)ATPase activity through a PI-PLC/PKC signaling pathway.     

Erythromycin resistant mutations in Bacillus subtilis cause temperature sensitive sporulation.

Summary All of several hundred erythromycin resistant (ery^R) single site mutants ofBacillus subtilis W168 are temperature sensitive for sporulation (spo^ts). The mutants and wild type cells grow vegetatively at essentially the same rates at both permissive (30° C) and nonpermissive (47° C) temperatures. In addition, cellular protein synthesis, cell mass increases and cell viabilities are similar in mutant and wild type strains for several hours after the end of vegetative growth (47° C). In the mutants examined, the temperature sensitive periods begin when the sporulation process is approximately 40% completed, and end when the process is 90% complete. At nonpermissive temperatures, the mutants produce serine and metal proteases at 50% of the wild type rate, accumulate serine esterase at 16% of the wild type rate, and do not demonstrate a sporulation related increase in alkaline phosphatase activity.The ery^R and spo^ts phenotypes cotransform 100%, and cotransduce 100% using phage PBS1. Revertants selected for ability to sporulate normally at 47° C (spo⁺), simultaneously regain parental sensitivity to erythromycin. No second site revertants are found.Ribosomes from ery^R spo^ts strains bind erythromycin at less than 1% of the wild type rate. A single 50S protein (L17) from mutant ribosomes shows an altered electrophoretic mobility. Ribosomes from spo⁺ revertants bind erythromycin like parental ribosomes and their proteins are electrophoretically identical to wild type. These data indicate that the L17 protein of the 50S ribosomal subunit fromBacillus subtilis may participate specifically in the sporulation process.     

Raman spectroscopic studies of hen egg-white lysozyme at high temperatures and pressures

In situ high-temperature, high-pressure Raman experiments on 3 mM (pH 5) aqueous solutions of hen egg-white (HEW) lysozyme show a decrease in the relative height of the 505 cm^–1 band associated with S-S stretching vibrations at 72°C (1 bar). The peak height changes are accompanied by significant band broadening, and the integrated band intensity does not change within experimental error. The effect of increased pressure at 72°C was to hinder broadening of the 505 cm^–1 band. HEW lysozyme (2.4 mM,pH 5) was also heated at 76°C, 80°C, and 95°C for different periods of time, and aliquots were quenched to room temperature for Raman and enzymatic activity measurements. After 9 hr at 76°C, the protein exhibits enzyme activity less than 50% of the initial value, and approximately 50% reduction in activity is achieved after 3 hr at 80°C or 1 hr at 95°C. The Raman results suggest that different irreversibly denatured conformations are attained during prolonged exposures at these different temperatures. It is apparent from these studies that the S-S stretch intensity is decreased irreversibly.     

Purification and characterisation of NAD+-dependent xylitol dehydrogenase from Fusarium oxysporum

An NAD⁺-dependent xylitol dehydrogenase (XDH) from Fusarium oxysporum, a key enzyme in the conversion of xylose to ethanol, was purified to homogeneity and characterised. It was homodimeric with a subunit of M _r 48 000, and pI 3.6. It was optimally active at 45 °C and pH 9–10. It was fully stable at pH 6–7 for 24 h and 30 °C. K _m values for d-xylitol and NAD⁺ were 94 mM and 0.14 mM, respectively. Mn²⁺ at 10 mM increased XDH activity 2-fold and Cu²⁺ at 10 mM inhibited activity completely.     

Purification and characterization of an extracellular polygalacturonase from the thermophilic fungus,Thermomyces lanuginosus

A polygalacturonase was purified from the thermophilic fungus, Thermomyces lanuginosus to apparent homogeneity by ultrafiltration, acetone precipitation and ion-exchange chromatography. The enzyme was maximally active at pH 5.5 and 60 °C. The apparent K_M with potassium pectate was 0.67 mg/ml and the V_max was 7.2 × 10⁵ mol/min/mg protein. The apparent molecular weight of the enzyme was 59 kDa and it contained approximately 10% carbohydrate. The enzyme was completely stable at room temperature (32 ± 3 °C) and retained about 50% activity at 50 °C for 6 h. The zymogram of the purified enzyme revealed two activity bands, one of which was a major one. Polyclonal antibodies raised against the enzyme did not show any immunological relatedness with other mesophilic polygalacturonases.     

Heat-sensitive DNA-binding activity of thecI product of bacteriophage lambda

Summary The binding of genecI product to DNA was studied at temperatures from 0°C to 46° C. Binding activity of the products ofcIts mutants was higher at 22° C than at 0° C, 26° C or 30° C. BothcI⁺ andcIts products lost DNA-binding activity at 46° C, but after subsequent cooling to 22° C, they regained 50–100% of their activity.     

Bimutation breeding of Aspergillus niger strain for enhancing β-mannanase production by solid-state fermentation

A parent strain Aspergillus niger LW-1 was mutated by the compound mutagenesis of vacuum microwave (VMW) and ethyl methane sulfonate (EMS). A mutant strain, designated as A. niger E-30, with high- and stable-yield β-mannanase was obtained through a series of screening. The β-mannanase activity of the mutant strain E-30, cultivated on the basic fermentation medium at 32 °C for 96 h, reached 36,675 U/g dried koji, being 1.98-fold higher than that (18,501 U/g dried koji) of the parent strain LW-1. The purified E-30 β-mannanase, a glycoprotein with a carbohydrate content of 19.6%, had an apparent molecular weight of about 42.0 kDa by SDS–PAGE. Its optimal pH and temperature were 3.5 and 65 °C, respectively. It was highly stable at a pH range of 3.5–7.0 and at a temperature of 60 °C and below. The kinetic parameters K_m and V_max, toward locust bean gum and at pH 4.8 and 50 °C, were 3.68 mg/mL and 1067.5 U/mg, respectively. The β-mannanase activity was not significantly affected by an array of metal ions and EDTA, but strongly inhibited by Ag⁺ and Hg²⁺. In addition, the hydrolytic conditions of konjak glucomannan using the purified E-30 β-mannanase were optimized as follows: konjak gum solution 240 g/L (dissolved in deionized water), hydrolytic temperature 50 °C, β-mannanase dosage 120 U/g konjak gum, and hydrolytic time 8 h.     

Gluconeogenesis from pyruvate in the hyperthermophilic archaeon Pyrococcus furiosus: involvement of reactions of the Embden-Meyerhof pathway

The hyperthermophilic archaeon Pyrococcus furiosus was grown on pyruvate as carbon and energy source. The enzymes involved in gluconeogenesis were investigated. The following findings indicate that glucose-6-phosphate formation from pyruvate involves phosphoenolpyruvate synthetase, enzymes of the Embden-Meyerhof pathway and fructose-1,6-bisphosphate phosphatase.Cell extracts of pyruvate-grown P.furiosus contained the following enzyme activities: phosphoenolpyruvate synthetase (0.025 U/mg, 50 °C), enolase (0.9 U/mg, 80 °C), phosphoglycerate mutase (0.13 U/mg, 55 °C), phosphoglycerate kinase (0.01 U/mg, 50 °C), glyceraldehyde-3-phosphate dehydrogenase reducing either NADP⁺ or NAD⁺ (NADP⁺: 0.019 U/mg, NAD⁺: 0.009 U/mg; 50 °C), triosephosphate isomerase (1.4 U/mg, 50 °C), fructose-1,6-bisphosphate aldolase (0.0045 U/mg, 55 °C), fructose-1,6-bisphosphate phosphatase (0.026 U/mg, 75 °C), and glucose-6-phosphate isomerase (0.22 U/mg, 50 °C). Kinetic properties (V _max values and apparent K _m values) of the enzymes indicate that they operate in the direction of sugar synthesis. The specific enzyme activities of phosphoglycerate kinase, glyceraldehyde-3-phosphate dehydrogenase (NADP⁺-reducing) and fructose-1,6-bisphosphate phosphatase in pyruvate-grown P. furiosus were by a factor of 3, 10 and 4, respectively, higher as compared to maltose-grown cells suggesting that these enzymes are induced under conditions of gluconeogenesis. Furthermore, cell extracts contained ferredoxin: NADP⁺ oxidoreductase (0.023 U/mg, 60 °C); phosphoenolpyruvate carboxylase (0.018 U/mg, 50 °C) acts as an anaplerotic enzyme.Thus, in P. furiosus sugar formation from pyruvate involves reactions of the Embden-Meyerhof pathway, whereas sugar degradation to pyruvate proceeds via a modified non-phosphorylated Entner-Doudoroff pathway.     

Enhanced stability of cellulase-free xylanase from Chainia sp. (NCL 82.5.1)

Summary Chainia sp. (NCL 82.5.1) produces an extracellular, cellulase-free xylanase. The ready accessibility of the enzyme to cellulose pulp due to its small size and the absence of cellulase are advantageous features. The enzyme is stable at 40°C for 1h and in a pH range of 5–9 at 4°C. Improved stability of the enzyme at higher temperature and pH are desirable. Effect of a variety of compounds was studied to enhance stability. Glycerol, sorbitol, mannitol (10%) or glycine (1M) had marginal effect on thermostability. Addition of Ca⁺² or PEG (10mM) increased the half-life of the enzyme at 60°C. Cysteine (10mM) or Tween-80 (1%) showed 70% protection against thermal inactivation. Xylan (3%) offered complete protection against inactivation of the emzyme at 60°C and at pH 9.NCL Communication No. 5907     

Postnatal Nitric Oxide Inhibition Modifies Neurotensin Effect on ATPase Activity

We have previously showed that peptide neurotensin inhibits neuronal Na⁺, K⁺-ATPase activity, an effect which involves high affinity neurotensin receptor. Nitric oxide (NO) acts as a neurotransmitter or as a neuromodulator when it is synthesized by neuronal nitric oxide synthase. Neurotensin effect on Na⁺, K⁺-ATPase activity was evaluated in cortical synaptosomal membranes isolated from rats injected at 3, 4 and 5 postnatal days with saline (control) or N (ω)-nitro-l-arginine methyl esther (L-NAME), a nitric oxide synthase inhibitor. Assays were carried out at two stages: juvenile (35 days) and adult (56 days) ages. In an open field task, results recorded in juvenile rats markedly differed from those obtained in adult rats. The presence of neurotensin at 3.5 × 10⁻⁸–3.5 × 10⁻⁶ M concentration decreased 16–34% Na⁺, K⁺-ATPase activity in membranes purified from control animals. At variance, the peptide failed to alter this enzyme activity in membranes obtained after L-NAME treatment. After administration of L-NAME, [³H]-ouabain binding to membranes isolated from adult male rats decreased 64% in the presence of 1.0 × 10⁻⁶ M neurotensin, a peptide concentration which only slightly decreased binding to membranes isolated from juvenile rats. It is postulated that early postnatal NO dysfunction may exert a permanent change in neurotensin system that influence later Na⁺, K⁺-ATPase response to neurotensin.     

Elevating intracellular free Mg2+ preserves sensitivity of Na+−K+ pump to ATP at reduced temperatures in guinea pig red blood cells

Red cells of hibernating species have a higher relative rate of Na⁺–K⁺ pump activity at low temperature than the red cells of a mammal with a typical sensitivity to cold. The kinetics of ATP stimulation of the Na⁺–K⁺ pump were determined in guinea pig and ground squirrel red cells at different temperatures between 5 and 37°C by measuring ouabain-sensitive K⁺ influx at different levels of ATP. In guinea pig cells, elevation of intracellular free Mg²⁺ to 2 mmol·l^-1 by use of the divalent cation ionophore A23187 caused the apparent affinity of the pump for ATP to increase with cooling to 20°C, rather than to decrease, as occurs in cells not loaded with Mg²⁺. In ground squirrel cells raising intracellular free Mg²⁺ had little effect on apparent affinity of the pump for ATP at 20°C. ATP affinity rose slightly with cooling both in Mg²⁺-enriched and in control ground squirrel cells. Increased intracellular free Mg²⁺ in guinea pig cells stimulated Na⁺–K⁺ pump activity so that at 20°C the pump rate was the same in the Mg²⁺-enriched guinea pig and control ground squirrel cells. Pump activity in Mg²⁺-enriched guinea pig cells at 5°C was significantly improved but still lower than pump activity in control cells from ground squirrel. Thus, loss of affinity of the Na⁺–K⁺ pump for ATP that occurs with cooling in cold-sensitive guinea pig red cells can be, at least partially, prevented by elevating cytoplasmic free Mg²⁺. Conversely, in ground squirrel red cells natural rise of free Mg²⁺ may in part account for the preservation of the ATP affinity of their Na⁺–K⁺ pump with cooling.Abbreviations K _m Michaelis-Menten constant for apparent affinity - MOPS 3-(N-morpholino)-propanesulphonic acid - [Mg²⁺]_i intracellular concentration of free Mg²⁺ - OD optical density - RBC red blood cell(s) - T _b body temperature