Influence of electrostatic interactions on partitioning in aqueous polyethylene glycol/dextran biphasic systems: Part I

To study the influence of charges on the partition of solutes in aqueous two-phase systems of polyethylene glycol and dextran, partition coefficients of dimethylaminoethyl-dextran, trimethylamino-dextran, and bis (alpha,omega)-amino-poly(ethylene glycol) were determined as a function of pH (range 2 to 12) and ionic strength. These polymers are derivatives of the phase forming components and carry ionizable groups that are charged or uncharged depending on the pH. Unexpectedly, the largest differences in the partition coefficients were found at high pH, where the modified polymers are uncharged. In addition, the partitioning of low-molecular-weight model compounds, ethylenediamine and iminodiacetic acid, as well as poly-L-lysine and poly(allylamine) was analyzed. A consistent pattern was observed in the partition of polyelectrolytes reflecting the influence of charge, but another property of aqueous phase systems unrelated to charge and changing with pH seems to be superimposed. (c) 1995 John Wiley & Sons, Inc.     

Optimization of bovine serum albumin partition coefficient in aqueous two-phase systems

Partitioning of proteins in aqueous two-phase systems has been shown to provide a powerful method for separating and purifying mixtures of biomolecules by extraction. These systems are composed of aqueous solutions of either two water-soluble polymers, usually polyethylene glycol (PEG) and dextran (Dx), or a polymer and a salt, usually PEG and phosphate or sulfate. There are many factors which influence the partition coefficient K, the ratio of biomolecule concentration in the top phase to that in the bottom phase, in aqueous two-phase systems. The value of the partition coefficient relies on the physico-chemical properties of the target biomolecule and other molecules and their interactions with those of the chosen system. In this work, the partition behavior of pure bovine serum albumin in aqueous two-phase systems was investigated in order to see the effects of changes in phase properties on the partition coefficient K. The concentration of NaCl and pH were considered to be the factors having influence on K. Optimal conditions of these factors were obtained using the Box-Wilson experimental design. The optimum value of K was found as 0.0126 when NaCl concentration and pH were 0.14 M and 9.8, respectively, for a phase system composed of 8% (w/w) polyethylene glycol 3,350 - 9 (% w/w) dextran 37,500 - 0.05 M phosphate at 20 °C.     

Partition of proteins in aqueous polymer two-phase systems and the effect of molecular weight of the polymer

The partition of substances in aqueous polymer two-phase systems is influenced by the molecular weight of the phase-forming polymers. We investigate how the effect of the molecular weight of the polymers depends on the molecular weight of the partitioned protein. We show that the magnitude of change of the partition is very small for proteins of molecular weights around 10 000, but increases almost linearly up to molecular weights of 250 000.     

高速逆流色谱技术在生物大分子分离纯化中的应用

高速逆流色谱是一种连续液-液色谱技术,具有无固相载体、样品无需严格预处理等优点。近10年来,在设备结构和溶剂体系等方面进行了大量的研究开发,已推广应用于生物技术、医药、天然产物、环境监测、食品等领域。为适应生物大分子和活性细胞的分离,采用条件温和的双水相体系,研究开发相应的高速逆流色谱设备已成为热点。针对双水相体系的特点,已经开发出了多种具有较高固定相保留率的新型高速逆流色谱设备,通过优化实验条件,成功地进行了多种蛋白质的分离纯化。本对该领域的最新进展进行了综述与评价。     

Centrifugal partition chromatography as a tool for preparative purification of pea albumin with enhanced yields

A new procedure including the use of centrifugal partition chromatography (CPC) is proposed to purify PA1b and its isoforms. These pea (Pisum sativum L.) seed proteins are toxic against weevils and can be used as an environment-friendly insecticide. CPC was applied to a whole albumin fraction prepared from pea flour. The butanol:aqueous TFA system used in CPC allowed the separation of PA1b from other albumins and a degree of purification above 95%. Compared to analytical procedures based on methanol extraction, anion exchange and then reversed-phase chromatography (RPC), CPC recovered PA1b in much better yield, which is indispensable for large-scale purification of a biodegradable insecticide.     

On the use of mild hydrophobic interaction chromatography for "method scouting" protein purification strategies in aqueous two-phase systems: a study using model proteins

The behavior of a series of pure proteins partitioned in aqueous two-phase systems is compared with their behavior during mild hydrophobic interaction chromatography (HIC). A simple theoretical rationale for this comparison is presented based upon solvophobic theory. Similarities were found in the behavior of the model proteins in the two forms of partition chromatography. This indicates that HIC may be employed as a rapid instrumental technique for the broad characterization of protein behavior, which may be of benefit in the development of liquid-liquid partitioning strategies. However, it has proved difficult to completely account for this behavior on the basis of the known physical and structural properties of the proteins used. The variety in the detailed partitioning behavior of this small sample of protein types suggests that partition in aqueous two-phase systems is uniquely sensitive to subtle differences in surface properties of complex macromolecules. (c) 1994 John Wiley & Sons, Inc.     

Growth and Secondary Metabolite Production by Hairy Roots of Tagetes Patula in Aqueous Two-Phase Systems

Hairy roots of Tagetes patula have been grown in aqueous two-phase systems. After selecting suitable polymers from single-phase experiments (in which salt phases were unable to support growth in the desired concentrations) several two-phase systems were tested for their influence on cell growth and thiophene production. Cell growth occurred in all aqueous two-phase systems, but the highest growth rate was achieved in normal medium. There was no difference in thiophene production between medium and aqueous two-phase systems. The partition of thiophenes favoured slightly the more hydrophobic top phase in most cases, while the cells were confined to the bottom phase. One aqueous two-phase system (15% polyethyleneglycol 10,000 and 15% Reppal PES 200) was tested in a stirred tank reactor with normal medium as a control. The growth rate in medium was higher than in the aqueous two-phase system, while the thiophene production per unit cell weight was in the same range for both systems. The excretion of thiophenes in the reactor with the aqueous two-phase system was about ten times as high as in the control reactor. The amount excreted was however still not more than 3% of the total production.     

Preliminary application of light-pH sensitive recycling aqueous two-phase systems to purification of lipase

One key problem of aqueous two-phase systems (ATPS) is that phase-forming polymers could not be recycled efficiently. This results in high cost and environmental pollution. In this study, we introduced novel aqueous two-phase systems which are composed by pH-sensitive polymer P_ADB and light-sensitive polymer P_NNC. P_NNC is enriched in the top phase while P_ADB is found in the bottom phase. And recoveries of two-phase-forming polymers can both reach over 96%. This aqueous two-phase system was used for purification of lipase from its crude material. The influences of various process parameters such as concentration of the phase-forming polymer, system pH, different types and concentrations of neutral salts on partitioning of lipase are evaluated. It has been found that partition coefficient of pure lipase could reach 0.061 under optimized conditions. Lipase from crude material was purified with 83.7% recovery and a purification factor of approximately 18 folds.     

Studies of the interaction between aminoacyl-tRNA synthetase and transfer ribonucleic acid by equilibrium partition.

The partition behavior of isoleucyl-tRNA synthetase, leucyl-tRNA synthetase and tRNA in aqueous two-phase systems composed of the polymers poly(ethyleneglycol) and dextran was investigated. From the results of this investigation a two-phase system could be derived which can be employed for the study of the interactions between synthetases and their cognate tRNAs by equilibrium partition. These measurements show that in each case one molecule of cognate tRNA is bound per molecule of enzyme. The binding constants were in the range 1-5micronM-1. It could be demonstrated that equilibrium partition is a useful method for the study of interactions between macromolecules.     

Purification, crystallisation and preliminary X-ray diffraction characterisation of methanol dehydrogenase from Methylosinus trichosporium OB3b

Methanol dehydrogenase was purified from the obligate methanotroph, Methylosinus trichosporium OB3b, in two steps from disrupted biomass by aqueous two-phase partition and ion-exchange chromatography. Copartitioning of a cytochrome c was dependent upon the pH at which aqueous partition was carried out. The native enzyme has a Mr of 120,000, as determined by gel filtration chromatography, and consists of two identical subunits. The purified enzyme contained four electrophoretically distinct isoenzymes, with pI values of 6.3, 6.58, 6.63 and 6.88. The native enzyme has been crystallised in a form suitable for high-resolution X-ray crystallographic studies. The crystals diffract to better than 0.19 nm spacing and are relatively stable to irradiation with X-rays. The space group is P6(1)22 (or P6(5)22) with cell dimensions a = b = 10.21 nm, c = 29.32 nm and the crystal probably contains a single monomer in the asymmetric unit.     

An assay for glycosyltransferases using phenel partition and gas-liquid chromatography

A method applicable to the assay of glycosyltransferases is described, Features include stopping the reaction using phenol, which results in the partition of the protein into the phenol phase and of the carbohydrates into the aqueous phase. Substrates and products are then assayed using gas-liquid chromatography. The method is shown to be convenient and rapid by application to the assay of invertase and fructosyltransferase.     

脱脂蛋白模型多肽与脂质体相互作用的高效液相色谱研究

应用凝胶过滤高效液相色谱,测定了两个两亲性多肽Ａｍｐ１和Ａｍｐ２进入磷脂酰甘油／磷脂酰胆碱脂双层的表观分配常数,并利用三硝基苯磺酸分析研究了与脂质体结合的多肽的氨基暴露状况。由结果推测,处于膜结合状态的多肽的氨基端是暴露于水相的;Ａｍｐ１与脂双层相互作用强于Ａｍｐ２,一方面表现为Ａｍｐ１比Ａｍｐ２埋膜较深,另一方面表现为Ａｍｐ１与脂双层的结合能力比Ａｍｐ２强,而主要表现在于后者。此外也发现两个多肽在缓冲液中处于几乎不存在暴露的氨基的聚合状态。     

Studies of protein-protein interaction using countercurrent distribution in aqueous two-phase systems: partition behavior of five glycolytic enzymes from crude baker's yeast extract

The partition behavior of five glycolytic enzymes, in extracts from baker's yeast (Saccharomyces cerevisiae), between two aqueous phases has been studied by countercurrent distribution. All enzymes showed distribution patterns which indicated homogeneity and a similar partition behavior. In purified form, three of the enzymes (glyceraldehyde-phosphate dehydrogenase, 3-phosphoglycerate kinase, and enolase) showed the same partition behavior as in the extracts. Pure 6-phosphofructokinase, on the other hand, changed its partition distinctively relative to what was found in the extracts. These results indicate interactions between this enzyme and macromolecular compounds in the extracts and support a model suggested by Kurganov et al. (1985, J. Theor. Biol. 116, 509-526) describing a "glycolytic particle."     

Hydrophobic affinity partition of spinach chloroplasts in aqueous two-phase systems

The surface properties of spinach chloroplasts, both of intact chloroplasts with surrounding envelope and broken chloroplasts consisting of the inner lamellar system, have been studied by partitioning them between two aqueous phases, especially using counter-current distribution technique. The two-phase system consists of poly(ethyleneglycol), dextran and water. The two polymers are enriched in opposite phases and by binding deoxycholate or palmitate to one of the polymers the affinity of chloroplasts for the corresponding phase is strongly enhanced. The partition of the two classes of chloroplasts, however, is not affected to the same degree and the affinity of the chloroplast envelope for deoxycholate and palmitate is stronger than that of the lamellar system. This has been correlated to the chemical composition of the two types of membranes. By studying the effect of salts on the partition it has been found that the lamellar system bears a larger number of negative charges as compared to the envelope of the intact chloroplast.     

Optimization of bovine serum albumin sorption and recovery by hydrogels

Aqueous two-phase systems are composed of aqueous solutions of either two water-soluble polymers, usually polyethylene glycol (PEG) and dextran (Dx), or a polymer and a salt, usually PEG and phosphate or sulfate. Partitioning of proteins in such systems provides a powerful method for separating and purifying mixtures of biomolecules by extraction. If one of the phase forming polymers is a crosslinked gel, then the solution-controlled gel sorption may be considered as a modification of aqueous two-phase extraction. Since PEG/dextran systems are widely used in aqueous two-phase extraction and dextran gels (Sephadex) are common chromatographic media, we choose a PEG/dextran gel system as a model system in this study. The partitioning behavior of pure bovine serum albumin (BSA) in PEG/dextran gel systems is investigated to see the effects of variations in PEG and NaCl concentrations on the partition coefficient K. By making use of the Box-Wilson experimental design, K is shown to be maximized at 9.8 (%, w/w) PEG and 0.2 M NaCl concentrations, respectively, as 182.     

Detection of Differences in Surface-charge-associated Properties of Cells by Partition in Two-polymer Aqueous Phase Systems

WHEN aqueous solutions of two polymers are mixed in certain proportions they may form two-phase systems^1,2 which can be buffered and used to partition and separate cells, particles and macromolecules by countercurrent distribution (CCD). Partition generally depends on polymer composition and concentration, the ionic composition and the charge sign of the material being partitioned. Such systems have been used to separate erythrocytes from white cells and erythrocytes on the basis of age. Changes in the surface properties of cells resulting from enzyme treatment or storage have also been demonstrated by this means³. Higher cell partition often accompanies increasing electrophoretic mobility which suggests that surface charge may be an important factor in partitioning^4–6. An apparent exception to this is the increased partition of stored human erythrocytes as compared with fresh⁷, as opposed to the mean electrophoretic mobility of both cell populations which remain identical⁸.     

A highly sensitive, mixed-phase assay for chloramphenicol acetyltransferase activity in transfected cells

We describe a simple, rapid yet extremely sensitive assay for chloramphenicol acetyltransferase (CAT) activity in extracts from transfected eukaryotic cells. Using our modified reaction conditions and the mixed-phase assay, less than 0.000010 unit of CAT activity in transfected cells can be reliably detected. The mixed-phase assay is based on the inability of the polar [3H]-acetyl-Coenzyme A (CoA) substrate to partition out of a urea containing aqueous phase into the nonpolar scintillation fluor, while the [3H]chloramphenicol reaction products partition into the toluene scintillation fluor and are quantitated by scintillation counting. The increased sensitivity of this assay is due to the optimization of the acetyl-CoA concentration, to a urea-containing aqueous phase which lowers the assay background, and to the use of extract blanks. The mixed-phase assay is simpler, is quantitative, uses less costly substrates, and is far more sensitive than the most widely used CAT assays, which require solvent extraction followed by thin-layer chromatography to separate the unreacted substrate from product.     

Cell surface charge. Correlation of partition with electrophoresis

Critical mixtures of aqueous solutions os polymers separate into two or more immiscible phases. Particulate materials distribute in such phase systems generally between one bulk phase and the interface between bulk phases. The distribution is described by a simple partition law, and is qunatitatively determined by, inter alia, the nature of the particle surface, particularly net electrical charge. The partition behaviour of various cells, native or modified by treatment with trypsin, neurominidase or maleic anhydride, correlate strongly with electrophoretic mobility. Partition behaviour and electrophoretic mobility are both dependent upon cell surface charge. Thus, in appropriate conditions, changes in surface charge may be registered as changes in partition.     

Fundamental studies of biomolecule partitioning in aqueous two-phase systems

Phase diagram data at 4 degrees C was determined for the aqueous two-phase systems composed of polyethylene glycol, dextran, and water. The Flory-Huggins theory of polymer thermodynamics was used to correlate partitioning of biomolecules in these aqueous two-phase systems resulting in a simple linear relationship between the natural logarithm of the partition coefficient and the concentration of polymers in the two phases. This relationship was verified by partitioning a series of dipeptides which differ from one another by the addition of a CH(2) group on the c-terminal amino acid residue and by utilizing a set of low-molecular-weight proteins. The slope of the line could be expressed in terms of the interactions of the biomolecule with the phase forming polymers and water. The main result for the dipeptides was that knowledge of the partition coefficient in any of the PEG/dextran/water systems, regardless of polymer molecular weight, enabled prediction of the coefficient in all of the systems. The dipeptides were also used for determination of the Gibbs free energy of transfer of a CH(2) group between the phases. This quantity was correlated with polymer concentration, thus establishing a hydrophobicity profile for the PEG/ dextran/water systems. The methodology for predicting dipeptide partition coefficients was extended to proteins, where it was found that low-molecular-weight proteins gave a linear relationship with the tie line compositions of a phase diagram.     

New phase supports for liquid-liquid partition chromatography of biopolymers in aqueous poly(ethyleneglycol)-dextran systems. Synthesis and application for the fractionation of DNA restriction fragments

New phase supports for liquid-liquid partition chromatography, using aqueous poly(ethyleneglycol)-dextran systems have been developed by grafting linear polyacrylamide chains on to premanufactured chromatographic supports carrying primary or secondary aliphatic hydroxyl functions on their surface. Columns prepared from such supports have a higher binding capacity for the dextran-rich stationary phase and much higher performances than columns prepared from cellulose, the previously used phase support for this system. Test separations of DNA restriction fragments, ranging from 11 base pairs to 3829 base pairs, document a high resolution for DNA fragments larger than 200 base pairs.