Fractionation of cellulase and β-glucosidase in a Trichoderma reesei culture liquid by use of two-phase partitioning

An aqueous two-phase system based on the two polymers poly(ethylene glycol) and dextran has been used for the fractionation of cellulase enzymes present in culture liquid obtained by fermentation with Trichoderma reesei. The activities of -glucosidase and glucanases were separated to high degree by using the two-phase systems for a counter-current distribution process in nine transfer steps. While the glucanases had high affinity to the poly(ethylene glycol) rich top phase the -glucosidase was enriched in the dextran-containing bottom phase. Multiple counter-current distribution performed indicates the heterogeneity of -glucosidase activities assuming at least four isoenzyme forms. One step concentration of -glucosidase by using system with 46:1 phase volume ratio resulted in 16 times higher enzyme activity.This revised version was published online in October 2005 with corrections to the Cover Date.     

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.     

Fractionation of wheat proteins by counter-current distribution using aqueous two-phase systems containing propionic acid

Wheat proteins, soluble in diluted acid (glutenins), have been fractionated by counter-current distribution (CCD) using an aqueous two-phase system. The phase system is based on poly(ethylene glycol) and dextran but contains also 1% propionic acid and 6 mM magnesium sulfate. Approximately half of the bulk proteins partitioned to the upper phase while starch and other particles were recovered only into the lower phase. Whole wheat flour could be applied as sample for the CCD and 57 transfers were carried out. Starch and insoluble proteins remained stationary, while proteins followed the mobile phase to various degrees giving rise to a distribution pattern. The CCD pattern of the proteins showed distinct differences when various kinds of wheat flour were analysed. The patterns indicate that at least six subpopulations of proteins can be obtained by using two-phase extraction.     

Heterogeneity of synaptosomal membrane preparations from different regions of calf brain studied by partitioning and counter-current distribution.

1. Membranes obtained by lysis and Yeda-press treatment of synaptosomes (nerve endings) from cortex, caudateus nucleus, and hippocampal region of calf brain have been studied by partitioning within a liquid-liquid aqueous two-phase system consisting of water, dextran, Ficoll, and poly(ethylene glycol). 2. The partitioning of membranes was sensitive to the presence of a dextran-bound dye, Procion yellow HE-3G, in the lower phase. 3. The two-phase system was used for counter-current distribution to study the heterogeneity of the synaptic membranes from the three regions of the brain and to separate the membranes into fractions. 4. The obtained counter-current distribution profiles strongly depended on the region of the brain from which the membranes were isolated. 5. The membrane fractions obtained showed marked differences in their SDS electrophoresis pattern.     

An aqueous hydroxypropylstarch-poly(ethylene glycol) two-phase system for extraction of alpha-lactalbumin and beta-lactoglobulin from bovine whey.

The partitioning of alpha-lactalbumin and beta-lactoglobulin from bovine whey has been studied in an aqueous poly(ethylene glycol) (PEG)-hydroxypropylstarch two-phase system. The influence of several parameters including concentrations of polymers, sodium phosphate buffer, KSCN, and of PEG palmitate, with and without the presence of Ca2+, on the partitioning of the proteins has been investigated. The separation of the two proteins was demonstrated by counter-current distribution. A purification procedure for both proteins has been developed by using PEG-hydroxypropylstarch two-phase system. This system is compared with the more costly standard system based on PEG and dextran. The possible use of the aqueous two-phase systems for batch extraction for large scale purification of these whey proteins is discussed.     

One-step purification of proteins from chicken egg white using counter-current chromatography

Proteins present in chicken egg white are separated by counter-current chromatography (CCC) in one step using a cross-axis coil planet centrifuge (X-axis CPC). The separation was performed with an aqueous polymer two-phase system composed of 16% (w/w) poly(ethylene glycol) 1000 and 12.5% (w/w) dibasic potassium phosphate by eluting the lower phase at a flow-rate of 1.0 ml/min. From about 20 g of the crude egg white solution, lysozyme, ovalbumin, and ovotransferrin were resolved within 5.5 h. Each component was identified by 12% SDS gel electrophoresis with Coomassie brilliant blue staining.     

Changes in plasma membrane and microfilaments accompanying morphologic differentiation in Chinese hamster ovary (CHO) cells.

Studies on the application of the techniques of counter-current distribution (CCD) in aqueous two-phase systems and multiple sedimentation for the fractionation of metaphase chromosomes are presented. The two-phase systems were composed of aqueous solutions of Dextran 500 and poly(ethylene)glycol 6000 (PEG). It has been found that different groups of chromosomes differ in their distribution between the two phases and that the introduction of PEG with covalently attached positively or negatively charged groups provides a means of steering the distribution of chromosomes. A rough fractionation of chromosomes on the basis of size is possible by the technique of multiple sedimentation and this, in combination with CCD, yields 10 fractions of chromosomes. Partition and CCD in aqueous two-phase system separate chromosomes according to their surface properties and may prove useful for isolation of individual chromosomes in bulk.     

Liquid-liquid partitioning of some enzymes, especially phosphofuctokinase, from Saccharomyces cerevisiae at subzero temperature

The effects of low temperature (−18°C) on the stability and partitioning of some glycolytic enzymes within an aqueous two-phase system were studied. The enzymes were phosphofructokinase, glyceraldehyde-3-phosphate dehydrogenase and alcohol dehydrogenase present in a crude extract of bakers' yeast. The partitioning of pure phosphofructokinase, isolated from bakers' yeast, was also examined. The two-phase systems were composed of water, poly(ethylene glycol), dextran, and ethylene glycol and buffer. The influence on the partitioning of the presence of ethylene glycol, phenylmethylsulfonyl fluoride and poly(ethylene glycol)-bound Cibacron Blue F3G-A was investigated at −18, 0 and (in some cases) 20°C. The presence of ethylene glycol, phase polymers and low temperature stabilized all three enzyme activities. Cibacron Blue, an affinity ligand for phosphofructokinase, increased its partitioning into the upper phase with decreasing temperature. Depending on the conditions, various amounts of the enzymes were recovered at the interface, also in systems not containing ethylene glycol. The implications of the observed effects on the use of aqueous two-phase systems for the extraction and fractionation of proteins are discussed.     

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).     

Management of sedimentation in centrifugal counter-current distribution of sperm cells in an aqueous 2-phase system.

It is generally assumed that centrifugal counter-current distribution (CCCD) in aqueous two-phase systems cannot be employed for analyzing or fractioning cell populations, due to large particles of sediment in the system caused by enhanced gravity. The present work was undertaken to find out whether addition of Percoll to a two-phase system would be a useful method to avoid this cell sedimentation. The results obtained show that bull spermatozoa partition as a unique peak in a CCCD using a Dextran T500-poly(ethylene glycol) 6000 system, and that sedimentation takes place significantly in the upper phase during the process. Addition of increasing concentrations of Percoll made this unique peak wider and two different populations of bull spermatozoa were finally obtained when Percoll concentration rose to 13.6%. This management of cell sedimentation in CCCD could be of great interest for analyzing cell heterogeneity, since the shortening of the time required for counter-current distribution should prevent the loss of cell viability during the separation process. Finally, the results obtained suggest that an increase of viscosity rather than of density is the phase feature which has greater influence on managing cell sedimentation in CCCD.     

Heterogeneity of smooth endoplasmic reticulum from rat liver studied by two-phase partitioning.

Smooth microsomal membranes, prepared from rat liver by sucrose-density-gradient centrifugation, were subfractionated by counter-current distribution in an aqueous two-phase system consisting of poly(ethylene glycol) and Dextran T500. A comparison of the distribution curves of marker enzymes, together with theoretically calculated curves, indicated the presence of at least five membrane subfractions, differing in the ratios of the marker enzymes. Glucose-6-phosphatase and arylesterase distributed in one manner, and NADPH-cytochrome c reductase and NADH-ferricyanide reductase in another. Evidence for further heterogeneities in the distribution of marker enzymes in smooth microsomes was obtained by analysing the membrane domain structure using a recently described method [Albertsson (1988) Q. Rev. Biophys. 21, 61-98]. Phenobarbital treatment did not influence the behaviour of the marker enzymes.     

Partition and counter-current distribution of membrane particles in aqueous dextran-poly(ethylene glycol) two-phase systems with special reference to synaptosomes

Aqueous two-phase systems composed of water, dextran and poly(ethylene glycol) can be used for the separation of biological particles. The adjustment of the partition of such particles between the two phases and the interface between them has been studied by using a preparation of synaptosomes (from calf brain cortex) also containing free mitochondria. The partition has been affected by variation of polymer concentrations and addition of salts, e.g. phosphates and chloride. The time for separation of the phases showed a bimodal behaviour with an initially rapid formation of bulk phases followed by a slow phase separation. The relative amount of mixed phases at the time of the transition was proportional to the amount of particles included. Counter-current distribution with moderate time for the phase separation was carried out in such way that the interface material travelled with approximately half the speed of the moving upper phase. In this way the distribution of the particles between the upper phase and the interface as well as between the interface and the lower phase could be studied in the same experiment. The heterogeneity of the synaptosome preparation was clearly demonstrated by counter-current distribution at low polymer concentrations while no separation was obtained when the system contained larger amounts of polymers. Possible reasons for this behaviour are discussed.     

Cultivation of Lactococcus lactis in a polyelectrolyte-neutral polymer aqueous two-phase system

The possibility to cultivate Lactococcus lactis in aqueous polymer two-phase system has been investigated. The phase system was made up of poly(ethylene imine) and (hydroxyethyl) cellulose. Long lag phases were needed for the microorganism to adapt to the polymer rich media. Cells favoured the (hydroxyethyl)cellulose rich top phase or they accumulated at the interface, while lactic acid showed affinity for the poly(ethylene imine) rich phase.Abbreviations PEG poly(ethylene glycol) - PEI poly(ethylene imine) - HEC (hydroxyethyl)cellulose     

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.     

Fractionation of proteins from human serum by counter-current distribution

Proteins of human serum have been fractionated by counter-current distribution using aqueous two-phase systems. These were composed of either polyethylene glycol and dextran or polyethylene glycol and the new water soluble starch polymer Aquaphase PPT. The distribution of serum proteins in the polyethylene glycol-Aquaphase PPT system resembles that in the polyethylene glycol-dextran system.The partition of a number of proteins could be changed by introducing polymer-bound reactive dyes into one of the phases. Due to affinity for the dyes several proteins were transferred into the phase containing the polymer-bound ligand leading to an improved separation of individual proteins.Furthermore, the effect of two different dyes, immobilised in the opposite phases, on counter-current distribution of serum proteins was demonstrated. The applicability of this method for fractionation of serum proteins is discussed.     

Subcellular fractionation of rat liver homogenates using two-polymer phase systems in a toroidal-coil centrifuge.

The principal organelles of rat liver homogenates were fractionated by two-phase partition chromatography using toroidal-coil centrifugation with a mixture of dextran T 500 and poly(ethylene glycol) 6000 in 0.26 M-sucrose containing 10 mM-sodium phosphate/phosphoric acid buffer, pH 7.4. The effects of varying the following parameters on organelle elution profiles, as reflected by their marker-enzyme activities, were studied: centrifuge speed; the composition and relative proportion of dextran-rich and poly(ethylene glycol)-rich phases in the eluent; flow rate; sample volume; homogenate concentration; helix diameter; tubing bore and the number of loops in the coil. Optimal resolution of the organelles was achieved with a toroidal coil of internal diameter 1.07 mm with a 4.55 mm helix diameter on a 0.42 m-diameter rotor running at 1000 rev./min. The eluent was prepared by combining, in a ratio of 93:7 (v/v), the poly(ethylene glycol)-rich upper phase and dextran-rich lower phase obtained from a phase mixture containing 3.3% (w/w) dextran and 5.4% (w/w) poly(ethylene glycol). The flow rate of the eluent was 14ml/h. Optimal conditions for separation of the organelles were evaluated. Resolution of plasma membrane and lysosomes was achieved. Separation of endoplasmic reticulum, which showed marked heterogeneity, from plasma membrane was also demonstrated. DNA and marker enzymes for peroxisomes, mitochondria and cytosol showed distinct elution profiles.     

Fractionation of chromosomes : II. Use of hydrophobic affinity partition in aqueous two-phase system

A simple method for separation of large quantities of isolated metaphase chromosomes in Single-Tube Partition (STP), using hydrophobic ligand in an aqueous two-phase system is presented. The two-phase system is composed of an aqueous solution of Dextran 500 and poly(ethylene) glycol 6000 (PEG). The concentration of chromosomes to be separated has no influence on the distribution behaviour in the partition system and up to 10(7) chromosomes can be used in a phase system as small as 3-5 g (5 ml tube). Different groups of chromosomes differ in their distribution in the two phases and the introduction of PEG with covalently attached hydrophobic ligand provides a means of controlling the distribution of chromosomes. A combination of positively charged trimethylaminomethane PEG (TMA-PEG) together with palmitat PEG (P-PEG) gives a fairly good condition for separating chromosomes on the basis of their net surface charge differences.     

Partition of rat erythrocytes in aqueous polymer twophase systems

The partition of rat erythrocytes between the top phase and interface of aqueous poly(ethylene glycol)-dextran two-phase systems containing 0.15 M NaCl and 0.01 M sodium phosphate depends on the association of the cells with microscopic globules of dextran that persist in the poly(ethylene glycol)-rich top phase after the horizontal interface between the two phases has formed.     

Recovery of extracellular human insulin-like growth factor-I and II as a fusion protein from Escherichia coli culture broth by aqueous two-phase extraction.

The primary purification of human insulin-like growth factor-I (IGF-I) and IGF-II, produced extracellularly in Escherichia coli as a fusion to two domains (ZZ) derived from staphylococcal protein A, has been studied. First, the partitioning of IgG-affinity purified ZZ-IGF-I and ZZ-IGF-II, respectively, to the top phase in poly(ethylene glycol)/potassium phosphate aqueous two-phase systems were investigated. Thereafter, the extraction of ZZ-IGF-I with a poly(ethylene glycol) 1500/potassium phosphate system was performed directly in the bioreactor after the cultivation. This resulted in a reduction of the cultivation volume more than 3-fold with a recovery of about 90% of target protein in a poly(ethylene glycol)-rich phase. The majority of the cells partitioned to the potassium phosphate-rich bottom phase, while a smaller fraction was collected at the interface, and/or as a densely packed cake on top of the interface. Contaminating proteins were also eliminated to some extent, which resulted in an almost 2-fold protein purification. Some obvious benefits offered by the aqueous two-phase system in the primary purification have been demonstrated: Firstly, the possibility to an early process volume reduction and thereby a concentration of the target protein. Secondly, a simultaneous protein purification was achieved. From this work it can be concluded that aqueous two-phase extraction should be considered as an attractive candidate for the primary steps during the design of new purification processes for extracellular proteins.     

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.