The reduction of artificial electron acceptors at sub-zero temperatures by chloroplasts suspended in fluid media.

1. Chloroplasts can be suspended in aqueous/organic mixtures which are liquid at sub-zero temperatures with a good retention of the ability to reduce artificial electron acceptors. The reduction of ferricyanide and 2,6-dichlorophenolindophenol at temperatures above 0 degrees C is about 50% inhibited by 50% (v/v) ethylene glycol. Higher concentrations cause more extensive inhibition. 2. Different solvents were compared on the basis of their ability to cause a given depression of the freezing point of an aqueous solution. Ethylene glycol caused less inhibition of electron transport than glycerol, which in turn was found to be superior to methanol. 3. The reduction of oxidised 2,3,5,6-tetramethyl-p-phenylenediamine could be measured at -25 degrees C in 40% (v/v) ethylene glycol. Using an acceptor with a high extinction coefficient, methyl purple (a derivative of 2,6-dichlorophenolindophenol) it was possible to observe electron flow at temperatures as low as -40 degrees C in 50% (v/v) ethylene glycol. 4. From studies of the effects of the inhibitors 3(3,4-dichlorophenyl)-1,1-dimethylurea and 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone it is suggested that electron flow from the donor side of Photosystem II to the acceptor side of Photosystem I can occur at temperatures at least as low as -25 degrees C. The ultimate electron donor is presumably water but it was not possible to demonstrate this directly.     

The reduction of artificial electron acceptors at subzero temperatures by chloroplasts suspended in fluid media

1. 1. Chloroplasts can be suspended in aqueous/organic mixtures which are liquid at sub-zero temperatures with a good retention of the ability to reduce artificial electron acceptors. The reduction of ferricyanide and 2,6-dichlorophenolindophenol at temperatures above 0δC is about 50% inhibited by 50% (v/v) ethylene glycol. Higher concentrations cause more extensive inhibition.

2. 2. Different solvents were compared on the basis of their ability to cause a given depression of the freezing point of an aqueous solution. Ethylene glycol caused less inhibition of electron transport than glycerol, which in its turn was found to be superior to methanol.

3. 3. The reduction of oxidised 2,3,5,6-tetramethyl-p-phenylenediamine could be measured at −25δC in 40% (v/v) ethylene glycol. Using an acceptor with a high extinction coefficient, methyl purple (a derivative of 2,6-dichlorophenolindophenol) it was possible to observe electron flow at temperatures as low as −40δC in 50% (v/v) ethylene glycol.

4. 4. From studies of the effects of the inhibitors 3(3,4-dichlorophenyl)-1,1-dimethylurea and 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone it is suggested that electron flow from the donor side of Photosystem II to the acceptor side of Photosystem I can occur at temperatures at least as low as −25δC. The ultimate electron donor is presumably water but it was not possible to demonstrate this directly.

Reaction of manganese-dependent peroxidase from Bjerkandera adusta in aqueous organic media

The oxidation of various phenolics and aromatic amines by manganese-dependent peroxidase (MnP) of Bjerkandera adusta was examined in aqueous organic media. MnP retained its activities in several 70% (v/v) aqueous solutions of water-miscible organic solvents including ethylene glycol, diethylene glycol, acetone and acetonitrile. The absorption spectra of MnP in these aqueous organic media were similar to that observed in the reaction without solvent addition, indicating that the heme of MnP was little affected by the addition of these water-miscible organic solvents. MnP was also found to oxidize Mn(II) to Mn(III) in these 70% (v/v) aqueous organic media. The oxidation of Mn(II) by MnP was correlated with the Dimroth–Reichardt parameter, E_T(30), of the solvents. Furthermore, MnP catalyzed the oxidation of anisidines, aminophenols, phenylenediamines and phenolics in aqueous 70% (v/v) acetone, acetonitrile and diethylene glycol media. Aromatic amines that have high hydrophobicity were shown to be suitable for the reaction of MnP in aqueous water-miscible organic media.     

Thermotropic phase behavior of model membranes composed of phosphatidylcholines containing cis-monounsaturated acyl chain homologues of oleic acid: differential scanning calorimetric and 31P NMR spectroscopic studies

The thermotropic phase behavior of dioleoylphosphatidylcholine and six of its longer chain homologues was studied by differential scanning calorimetry and 31P nuclear magnetic resonance (NMR) spectroscopy. Aqueous dispersions of these compounds all exhibit a single endotherm upon heating but upon cooling exhibit at least two exotherms, both of which occur at temperatures lower than those of their heating endotherm. The single transition observed upon heating was shown by 31P NMR spectroscopy to be a net conversion from a condensed, subgel-like phase (Lc phase) to the liquid-crystalline state. Aqueous ethylene glycol dispersions of these compounds also exhibit single endotherms upon heating and cooling exotherms centered at temperatures lower than those of their corresponding heating endotherm. However, the behavior of the aqueous ethylene glycol dispersions differs with respect to their transition temperatures and enthalpies as well as the extent of "undercooling" observed, and there is some evidence of discontinuities in the cooling behavior of the odd- and even-numbered members of the homologous series. Like the aqueous dispersions, 31P NMR spectroscopy also shows that the calorimetric events observed in aqueous ethylene glycol involve net interconversions between an Lc-like phase and the liquid-crystalline state. However, the Lc phase formed in aqueous ethylene glycol dispersions exhibits a considerably broader powder pattern than that observed in water. This, together with the fact that the transition enthalpies of the aqueous ethylene glycol dispersions are considerably higher than those of the aqueous dispersions, indicates that these lipids form more ordered Lc phases in aqueous ethylene glycol.(ABSTRACT TRUNCATED AT 250 WORDS)     

Generation of selective microenvironment at the cell periphery through bulk-phase hydrophilic polymers

In order to understand the previously demonstrated effect of poly(ethylene glycol) on the stimulation of lymphocyte responses to syngeneic tumor cells (Ben-Sasson, S.A. and Henkart, P.A. (1977) J. Immunol. 119, 227–231), we have investigated the effects of addition of poly(ethylene glycol) to the medium in a number of cellular systems. The binding of trimeric IgG to tumor-lymphocyte Fc receptors was greatly enhanced by poly(ethylene glycol); a substantial increase in binding of trimeric IgG to non-Fc-receptor-bearing tumor cells was also observed. Similarly, the binding of labeled bovine serum albumin to lymphocyte surfaces was increased by poly(ethylene glycol), implying that nonspecific binding of proteins to cells was generally enhanced. The dose-response curve of concanavalin A mitogenesis was shifted to the right, as would be expected from a local increase in concanavalin A concentration. Antibody binding to erythrocytes as detected by complement lysis was similarly increased. It was found that in aqueous two-phase mixtures created by poly(ethylene glycol) and dextran, erythrocytes partition into the dextran phase through exclusion into dextran-rich microdroplets. It is proposed that addition of poly(ethylene glycol) to cell culture media creates a similar separate phase around the cell surface in which the local concentration of proteins is greater than that in the bulk medium. This concept explains many of the diverse effects of addition of poly(ethylene glycol) to the medium. It also can partially explain the requirement for serum to observe the poly(ethylene glycol) effect on the lymphocyte response to syngeneic tumor cells.     

Effect of poly(ethylene glycol) on the polarity of aqueous solutions and on the structure of vesicle membranes

The partitioning of TEMPO into phosphatidylcholine vesicle membranes is reduced upon addition of poly(ethylene glycol). This is caused by reduced polarity of the aqueous phase as well as decreased membrane fluidity in the presence of poly(ethylene glycol). The isotropic hyperfine splitting of TEMPO in aqueous poly(ethylene glycol) solutions was used as a measure of solvent polarity. The alterations of the membrane fluidity were detected by means of two different fatty acid spin labels. The influences of physicochemical properties of an aqueous poly(ethylene glycol) phase on the membrane structure of cells and vesicles are discussed in the light of membrane fusion.     

Hydrophobic interaction determined by partition in aqueous two-phase systems. Partition of proteins in systems containing fatty-acid esters of poly(ethylene glycol).

In this report we describe a new method which is useful for measuring hydrophobic interactions between aliphatic hydrocarbon chains and proteins in aqueous environment. The method is based on partition of proteins in an aqueous two-phase system containing dextran and poly(ethylene glycol) and different fatty acid esters of poly(ethylene glycol). The partition is measured under conditions where contributions from electrostatic interactions are eliminated. The difference in partition of proteins in phase systems with and without hyrocarbon groups bound to poly(ethylene glycol), deltalog K, where K is the partition coefficient, is taken as a measure of hydrophobic interaction. Deltalog K varies with size of hydrocarbon chain and type of protein. The length of the aliphatic chain should be greater than 8 carbon atoms in order to get a measurable effect in terms of deltalog K. Bovine serum albumin, beta-lactoglobulin, hemoglobin and myoglobin have been shown to have different affinities for palmitic acid ester of poly(ethylene glycol). No hydrophobic effect could be observed for ovalbumin, cytochrome c or alpha-chymotrypsinogen A.     

A study on cryoprotectant solution suitable for vitrification of rat two-cell stage embryos

The present study was performed to develop a suitable cryoprotectant solution for cryopreservation of rat two-cell stage embryos. First, we examined the cell permeability of several cryoprotectants; propylene glycol had the fastest permeability compared to dimethyl sulfoxide, ethylene glycol, and glycerol. Embryos were then exposed to a solution containing propylene glycol to evaluate its effects on fetal development. As the development was similar to that of fresh embryos, P10 (10% v/v propylene glycol in PB1) was used as a pretreatment solution. Next, the effects of the vitrification solution components (sucrose, propylene glycol, ethylene glycol, and Percoll) were examined by observing the vitrification status; 10% v/v propylene glycol, 30% v/v ethylene glycol, 0.3 mol sucrose, and 20% v/v Percoll in PB1 (PEPeS) was the minimum essential concentration for effective vitrification without the formation of ice crystals or freeze fractures.     

Incorporation of penetrating cryoprotectants in diluents for pellet-freezing ram spermatozoa

Glycerol may be toxic to frozen-thawed ram spermatozoa and reduce their fertilizing capacity. This study examined the cryoprotective effects of dimethyl sulphoxide (DMSO), ethylene glycol, glycerol and propanediol alone and in combinations with each other in Triscitrate-glucose diluents on the post-thaw motility and acrosome integrity of pellet-frozen ram spermatozoa. The 4 cryoprotectants were examined in diluents at 5 concentrations (0, 1.5, 3.0, 6.0, 12.0% v/v). Post-thaw motility of spermatozoa was higher in diluents containing ethylene glycol (1.5 to 6.0% v/v), glycerol (at all levels tested) and propanediol (1.5 and 3.0% v/v) than in diluents without cryoprotectant (P<0.001), but there was no effect of DMSO on post-thaw motility. Motility of spermatozoa was higher in diluents containing ethylene glycol or glycerol than DMSO or propanediol (P<0.001). In diluents containing the 4 cryoprotectants at 3 concentrations (1.5, 3.0, 6.0% v/v), better recovery of spermatozoa was found with the addition of 18.0 than 4.5% v/v egg yolk. Combinations of ethylene glycol and/or propanediol (0 to 6.0% v/v) with glycerol (0 to 6.0% v/v) in diluents were also examined. In the presence of glycerol at all levels tested, increasing levels of ethylene glycol and/or propanediol decreased motility and acrosome integrity of spermatozoa (P<0.001). We conclude that the compounds examined exert a cryoprotective effect on pellet-frozen ram spermatozoa, except for DMSO which had no effect. In this study, glycerol remained the single most effective cryoprotectant, and there was no enhancement of this cryoprotection by addition of the other compounds.     

Modification of the interactions of myosin with actin and 5''-adenylyl imidodiphosphate by substitution of ethylene glycol for water.

We studied the effect of replacing water by ethylene glycol as solvent on the properties of skeletal muscle myosin, myosin subfragment-1 (S1) and heavy meromyosin. Ethylene glycol (50%, v/v) had no detectable effect on the affinity of myosin or actomyosin for the substrate analogue 5'-adenylyl imidodiphosphate (AMPPNP). However, the rate constants for formation and dissociation of the myosin X MgAMPPNP complex were reduced 200-fold; the logarithm of the dissociation rate was roughly proportional to the fractional concentration of ethylene glycol. Nucleotide dissociation was accelerated at least 300-fold by pure actin but remained slow with regulated actin in the absence of Ca2+. Ethylene glycol substitution reduced the affinity of S1 and the S1 X MgAMPPNP complex for actin equally (100-fold at 50% ethylene glycol). These results show that ethylene glycol has specific effects on myosin's enzymic mechanism, which can account for its effect on the tension and stiffness of glycerinated muscle fibres.     

Contribution of water to free energy of hydrolysis of pyrophosphate

The energy of hydrolysis of phosphate compounds varies depending on whether they are in solution or bound to the catalytic site of enzymes. With the purpose of simulating the conditions at the catalytic site, the observed equilibrium constant for pyrophosphate hydrolysis (Kobsd) was measured in aqueous mixtures of dimethyl sulfoxide, ethylene glycol, or polymers of ethylene glycol. The reaction was catalyzed by yeast inorganic pyrophosphatase at 30 degrees C. All the cosolvents used promoted a decrease of Kobsd. Polymers of ethylene glycol were more effective than dimethyl sulfoxide or ethylene glycol in decreasing Kobsd. The higher the molecular weight of the polymer, the lower the value of Kobsd. A decrease in Kobsd from 346 M (delta G degree obsd = -3.5 kcal mol-1) to 0.1 M (delta G degree obsd = 1.3 kcal mol-1) was observed after the addition of 50% (w/v) poly(ethylene glycol) 8000 to a solution containing 0.9 mM MgCl2 and 1 mM Pi at pH 8.0. The association constants of Pi and pyrophosphate for H+ and Mg2+ were measured in presence of different ethylene glycol concentrations in order to calculate the Keq for hydrolysis of different ionic species of pyrophosphate. A decrease in all the Keq was observed. The results are interpreted according to the concept that the energy of hydrolysis of phosphate compounds depends on the different solvation energies of reactants and products.     

The Beneficial Effect of Organic Solvents on the Enzymatic Synthesis of Nucleoside Analogues Using N-Deoxyribosyltransferases from Lactobacillus leichmannii (E.C. 2.4.2.6)

Addition of ethylene glycol (10% v/v) has a beneficial effect on the synthesis of 2'-deoxynucleosides catalysed by crude preparations of N-deoxyribosyltransferases from Lactobacillus leichmannii. In the absence of added organic solvent decomposition of products and starting materials by deamination or hydrolysis occurs giving rise to poor yields of products if the transfer reaction is slow. The glycosyl transfer reaction is unaffected by addition of organic solvent but decomposition of products and starting materials is largely suppressed. The organic solvent appears to inhibit selectively contaminating enzymes in the crude N-deoxyribosyltransferase preparation as the purified transferase does not possess hydrolytic or deaminating activity. Different concentrations of ethylene glycol and other organic solvents have been examined as inhibitors of the side reactions but 10% (v/v) appears to be the most effective. Using the N-deoxyribosyltransferase in the presence of ethylene glycol, a number of 2'-deoxynucleosides of 6-substituted nucleosides have been obtained in high yield on a preparative scale.     

Hydrophobic surface properties of erythrocytes studied by affinity partition in aqueous two-phase systems

Summary Erythrocytes from various species have been partitioned in aqueous two-phase systems consisting of water, dextran, poly-(ethylene glycol), salt and buffer. The terminal hydroxyl groups of the latter polymer were esterified with palmitic, oleic, linoleic and linolenic acids, as well as with deoxycholic acid. In a two-phase system containing unesterified poly(ethylene glycol) the erythrocytes are exclusively in the dextran-rich lower phase. When the poly(ethylene glycol) is esterified the red blood cells collect at the interface and/or in the poly(ethylene glycol)-rich upper phase depending on the type and concentration of esterified acid. Palmitate ester is most effective in increasing the affinity of the cells for the upper phase, followed by oleate, linolate, linolenate, and deoxycholate esters. The partition behaviour of erythrocytes from various species differs considerably. Two groups can be distinguished: one consisting of erythrocytes from dog, guinea pig and rat, the other from human, sheep and rabbit. This division can be correlated to the content of sphingomyelin and phosphatidyl choline in the erythrocyte membranes.     

A differential scanning calorimetric study of chymotrypsin in the presence of added polymers

Scanning calorimetry measurements of different amounts of chymotrypsin in water alone gave a temperature of denaturation (T(d)) value of 54 degrees C. However, when high-molecular-weight poly(ethylene glycol) was added to aqueous solutions of chymotrypsin, the thermostability of the enzyme was enhanced. For example, the addition of 20% (w/w) of poly(ethylene glycol) of molecular weight of 100,000 increased the T(d/) value to 66 degrees C. In toluene containing various amounts of added water, ethyl cellulose was used to improve the thermostability of chymotrypsin. For this system, a T(d) value of 82 degrees C was obtained with a 20% (w/w/) concentration of ethyl cellulose and 2% (v/v) of added water. Polymers in these solvents interact with water, which could otherwise denature the enzyme; polymers also from complexes with enzyme molecules to produce a more stable structure. (c) 1994 John Wiley & Sons, Inc.     

Highly purified mitochondria from rat brain prepared by phase partition

Mitochondria and synaptosomes from adult rat forebrain can easily be separated by counter-current distribution in an aqueous two phase system composed of Dextran T500 and poly(ethylene glycol) 4000. Both particles may also be separated by a batch procedure in which the same phase system is used. Electron micrographs and enzymatic activities show a high purity of the mitochondria obtained from the dextran-rich lower phase. Electron micrographs and enzymatic activities also show that intact synaptosomes can be obtained from the poly (ethylene glycol)-rich upper phase.The mitochondria purified by this method show good ADP/O ratios, respiratory control ratios, and state 3 rates. Synaptosomes showed a state 2-state 3 transition with no recuperation to state 4.     

Glycolic acid production using ethylene glycol-oxidizing microorganisms.

Screening for microorganisms oxidizing ethylene glycol to glycolic acid was carried out. Among stock cultures, several yeasts and acetic acid bacteria showed high glycolic acid producing activity. Pichia naganishii AKU 4267 formed the highest concentration of glycolic acid, 35.3 g/l, from 10% (v/v) ethylene glycol (molar conversion yield, 26.0%). Among soil isolates, Rhodotorula sp. 3Pr-126, isolated using propylene glycol as a sole carbon source, formed the highest concentration of glycolic acid, 25.1 g/l, from 10% (v/v) ethylene glycol (molar conversion yield, 18.5%). Rhodotorula sp. 3Pr-126 showed higher activity toward 20% (v/v) ethylene glycol than P. naganishii AKU 4267. Optimization of the conditions for glycolic acid production was investigated using P. naganishii AKU 4267 and Rhodotorula sp. 3Pr-126. Under the optimized conditions, P. naganishii AKU 4267 and Rhodotorula sp. 3Pr-126 formed 105 and 110 g/l of glycolic acid (corrected molar conversion yields, 88.0 and 92.2%) during 120 h of reaction, respectively.     

Effect of water activity on the growth and the production of cAMP phosphodiesterase inhibitor with Bacillus subtilis

Summary Bacillus subtilis C-756, a producer of cyclic adenosine 3,5-monophosphate (cAMP) phosphodiesterase inhibitor, was cultured in media adjusted to various water activity (a_w) levels by addition of three different solutes, sodium chloride, ethylene glycol and polyethylene glycol 1540 (PEG). B. subtilis C-756 can grow, however weakly, at a_w levels of 0.94 and 0.93.The presence of all three solutes in the medium inhibited growth, cell mass as well as inhibitor production. PEG was found to be most inhibitory, but the effect can not be explained in terms of a decreased water activity in the medium. It is rather the increased viscosity of the medium, which results in a decreased oxygen transfer rate.Comparing ethylene glycol and sodium chloride, the presence of ethylene glycol appears to favour inhibitor production, whereas sodium chloride favours cell mass production.     

Evaluation of viscosities of polymer-water solutions used in aqueous two-phase systems

The dynamic viscosities of dilute aqueous poly(ethylene glycol) and dextran, and poly(ethylene glycol)-dextran-water solutions have been measured. The poly(ethylene glycol) and dextran samples had average molecular masses of 8000 Da and 580 000 Da, respectively. To estimate the values of viscosity of poly(ethylene glycol)-dextran-water solutions, a Grunberg like equation has been proposed which takes into account the influence of poly(ethylene glycol) and dextran concentrations. The relative errors vary between 0.76 and 11.64 in absolute value.     

Coupling of poly(ethylene glycol) to albumin under very mild conditions by activation with tresyl chloride: characterization of the conjugate by partitioning in aqueous two-phase systems

Poly(ethylene glycol) activated with tresyl chloride has been covalently linked to albumin as a result of a 2-h incubation in 0.05 M sodium phosphate buffer, pH 7.5, containing 0.125 M sodium chloride (0.344 OSM). The coupling of poly(ethylene glycol) to albumin was demonstrated by the increase in the partition coefficient of the protein in poly(ethylene glycol)-dextran aqueous two-phase systems. A linear relationship between the log of the partition coefficient of the poly(ethylene glycol)-albumin conjugate and the degree of modification (measured as the amino groups consumed during the coupling step) has been demonstrated. Countercurrent distribution in the two-phase system showed that poly(ethylene glycol)-albumin was heterogeneous with respect to its partitioning behavior, indicating that the albumin was not uniformly modified with poly(ethylene glycol).