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ABSTRACT: The use of two-dimensional gel electrophoresis as a tool for the investigation of human bronchoalveolar lavage fluid (BALF) has been hampered by technical difficulties. In the last decade attempts have been made to establish a two-dimensional (2-D) protein map of BALF samples, resulting in the identification of a number of proteins present in BALF. In this study, we report an improved sample handling and separation protocol for investigation of human BALF proteins. The sample has been analyzed by employing a number of strategies, including the 'paper bridge' sample application method in combination with narrow range immobilized pH gradient (IPG) DryStrips, followed by comparison to the corresponding plasma map. Using peptide mass fingerprinting, we have identified 49 proteins in the narrow pH range 4.5-5.2 from an individual healthy BALF sample. Furthermore, we identified 17 BALF proteins, not detected in plasma. Twelve of these proteins have, to our knowledge, not previously been described in the BALF 2-D map. The mapping of BALF proteins with inclusion of those at low concentration increases the possibility to subsequently screen patient material for disease markers.
Electrophoresis 06/2001; 22(9):1851-60. · 3.30 Impact Factor
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ABSTRACT: In the field of proteomics the need to detect low-abundance cellular components, such as regulatory proteins, is of critical importance. Two-dimensional polyacrylamide gel electrophoresis (2-D PAGE) is one of the most commonly used separation tools for these biological investigations. In this paper we report an alternative micropreparative 2-D PAGE sample application method, called the "paper bridge loading" method. This method makes it possible to apply a larger sample volume to commercially available immobilized pH gradient (IPG) strips. The Vh products required for focusing are only marginally longer than those used in analytical experiments. The method was compared to traditional cup loading and in-gel rehydration. With 18 cm long narrow-range Immobiline DryStrip pH 4.5-5.5, the "paper bridge" method allowed the application of 10 mg human plasma proteins compared to 3 mg with traditional loading methods. The corresponding figures using Escherichia coli sample was found to be 6 mg and less than 2 mg, respectively. The paper bridge method also showed the best results in terms of spot resolution and separation of high molecular weight proteins.
Electrophoresis 12/2000; 21(17):3649-56. · 3.30 Impact Factor
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ABSTRACT: A new nonlinear immobilized pH gradient (IPG) is proposed as the first dimension for two-dimensional electrophoresis. In comparison to conventional carrier ampholyte techniques, it offers better resolution and greater reproducibility whilst allowing application of higher protein loads. Furthermore, we have checked and supplemented existing data on pK values for the immobilized groups in the presence of 8M urea. This is necessary for pH gradients to be defined in a pH scale relevant to the focusing conditions such that spot positions can be related to amino acid compositions. The data will allow definition of pH scales for the temperature range 10-25 degrees C and for a pH range covering the major part of the nonlinear pH gradient. With the latter, focusing positions are neither influenced by urea concentration nor by the choice or the concentration of detergent or carrier ampholyte. Temperature is the only parameter affecting focusing reproducibility and here any changes in focusing positions can be related to the amino acid compositions of peptides.
Electrophoresis 01/1994; 14(12):1357-65. · 3.30 Impact Factor
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ABSTRACT: We describe some simple modifications to the micropreparative two-dimensional (2-D) electrophoresis procedure using immobilized pH gradients in the first dimension and sodium dodecyl sulfate-electrophoresis in the second dimension. The geometry of the immobilized pH gradient strips has been changed to allow the use of large sample application cups that can accommodate greater sample volumes. The use of narrow range immobilized pH gradients with a large sample loading volume allows an efficient resolubilization of polypeptides after the first dimension. As a result, the vertical streaking caused by too high a protein concentration is eliminated in the second dimension. Protein identification by N-terminal sequencing is facilitated by the large protein load (1-15 mg) which can be employed using this modification. Spots not normally detectable on conventional analytical 2-D maps, even with sensitive silver staining, are observed. Results for plasma and liver proteins are shown.
Electrophoresis 01/1994; 14(12):1375-8. · 3.30 Impact Factor
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ABSTRACT: The focusing positions in narrow range immobilized pH gradients of 29 polypeptides of known amino acid sequence were determined under denaturing conditions. The isoelectric points of the proteins calculated from their amino acid sequences matched with good accuracy the experimentally determined pI values. We show the advantages of being able to predict the position of a protein of known structure within a two-dimensional gel.
Electrophoresis 11/1993; 14(10):1023-31. · 3.30 Impact Factor
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ABSTRACT: This publication establishes a reference human liver protein map obtained with immobilized pH gradients. By microsequencing, 57 spots or 42 polypeptide chains were identified. By protein map comparison and matching (liver, red blood cell and plasma sample maps), 8 additional proteins were identified. The new polypeptides and previously known proteins are listed in a table and/or labeled on the protein map, thus providing a human liver two-dimensional gel database. This reference map can be used to identify protein spots on other samples such as rectal cancer biopsies.
Electrophoresis 01/1993; 13(12):992-1001. · 3.30 Impact Factor
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ABSTRACT: The aim of this study was (a) to establish a red blood cell (RBC) protein map with immobilized pH gradient for the first dimension (b) to compare the pattern with previously published RBC protein map obtained with carrier-ampholyte pH gradients and (c) to localize four new enzymes on the map (i.e. 6-phosphogluconic dehydrogenase, glyceraldehyde-3-phosphate dehydrogenase, glutathione peroxidase and superoxide dismutase). This publication provides the most updated RBC polypeptide pattern with twelve proteins or enzymes localized on the map.
Applied and theoretical electrophoresis: the official journal of the International Electrophoresis Society 02/1992; 3(2):77-82.
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ABSTRACT: The microheterogeneity of highly purified human plasma lecithin:cholesterol acyltransferase (LCAT) has been examined by electrophoresis in immobilized pH gradients in Immobiline-polyacrylamide gels of the pH ranges 4-7 and 4.2-4.9. Seven isoforms were obtained with LCAT isolated from pools of normal plasma. Using this technique the apparent pI values at 15 degrees C for the isoforms in the pH 4.2-4.9 gradient were 4.37, 4.42, 4.48, 4.53, 4.60, 4.67 and 4.74. (SD = +/- 0.03 for all). The most intensely stained band in the isoform pattern corresponded to the isoform with a pI value of 4.48.
Electrophoresis 10/1988; 9(9):580-2. · 3.30 Impact Factor
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ABSTRACT: The relations describing the concentration changes at moving boundaries in a medium containing bound, buffering group are derived for a system which, except for hydrogen and hydroxyl ions, contains one anionic and one cationic mobile constituent. The relations found have been used to calculate concentrations and conductivities in zones developing in immobilized pH gradients. Assumptions used in the calculations as well as conductivity ratios between zones have been experimentally controlled and were found to reasonably agree with expectations. It is also shown how difference in transference numbers between sample droplet and gel will cause concentration and pH changes at the gel-sample droplet interfaces and it is explained how these changes are related to ionic concentrations in the gel. The high concentration zone generated at one of the interfaces will be transported into the gel. This transport has been numerically simulated and experimentally verified. The low concentration generated at the opposite interface will cause titration impeding sample entrance in the gel through this interface even when the gel contains ions other than H+ or OH- transported towards the interface. The described phenomena explain the dependence of lateral spreading, precipitation at the application site as well as streaking and smearing along sample lanes, on the type and concentration of low molecular weight ions originally present in the gel.
Electrophoresis 10/1988; 9(9):453-63. · 3.30 Impact Factor
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ABSTRACT: Isoelectric focusing of human globin chains in polyacrylamide gels dried in the ambient atmosphere and rehydrated in the presence of 8 mol/L urea produces artefactual doublets of zones as a result of oxidation by the gel. This oxidation can be avoided in separations of short duration by adding a reducing agent (e.g. 2-mercaptoethanol or dithiothreitol to the rehydration solution (Altland, K. and Rossmann, U., Electrophoresis 1985, 6, 314-325). We now demonstrate that the observed zone doublets can be explained by assuming neutralization of the contribution of dissociated sulfhydryl group of cysteine to pI by partial and reversible formation of globin dimers held together by disulfide bridges. Long time separations, requiring e.g. more than 4 h at greater than or equal to 500 V/cm, in pH gradients exceeding pH 7.5, are accompanied by artefactual oxidation from both the atmosphere and the gel matrix. Oxidation from the atmosphere as well as the effect of carbon dioxide can be eliminated by overlayering the gel with paraffin oil. Oxidation from the gel matrix can only partially be inhibited by rehydration of gels in the presence of 2-mercaptoethanol or dithiothreitol. Nearly complete protection against oxidation by the gel matrix was achieved by adding a permanent supply of 2-ME to the gel or by adding DTT to the cathodic wick towards the end of the experiment. Alkylation with iodoacetamide or iodoacetic acid resulted in stable globin patterns, which, however, displayed additional artefactual zones. Our experimental data indicate that the polyacrylamide gels function as an electron acceptor for dissociated sulfhydryl groups in proteins, even after pretreatment with strong reducing agents for proteins.
Electrophoresis 10/1988; 9(9):474-85. · 3.30 Impact Factor
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ABSTRACT: The effect of salt and buffer ions in the sample or in an immobilized pH gradient (IPG) on sample entry into the gel and on the final focused pattern are presented. During the initial phase of electrofocusing, ions present in the gel, either as counter ions to the immobilized charge groups of the IPG gel or added to the gel matrix during the rehydration process, are transported toward the electrodes. For ions present at a concentration exceeding approximately 1 mM the transport can be followed by the refractile line marking the trailing edge of an ion-containing zone. Gradual sample entry may be achieved by applying the sample at a site (near the anode or cathode) opposite to that from which the sharpest refractile line, marking the ion present in the highest concentration, approaches the sample. Additionally, lateral band spreading of the sample is avoided. Thus, sample applied at the cathode for IPG gels rehydrated with 1-2 mM Tris base, or at the anode for gels rehydrated with 1-2 mM acetic acid or sodium acetate, enters the gel matrix gradually without lateral band spreading. In contrast, sample applied at the anode, for Tris-containing gels, or at the cathode, for acetate-containing gels, enters rapidly in a sharp zone when the refractile line reaches the sample zone. This results in a high local protein concentration in the zone immediately behind the boundary with lateral band spreading.(ABSTRACT TRUNCATED AT 250 WORDS)
Electrophoresis 03/1988; 9(2):74-80. · 3.30 Impact Factor
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ABSTRACT: With the synthesis of a new, strongly basic Immobiline (pK 10.3 at 10 degrees C) it has been possible to formulate a new pH 10-11 recipe for focusing very alkaline proteins, not amenable to fractionation with conventional isoelectric focusing in carrier ampholyte buffers. In this formulation, water is added as an acidic Immobiline having pK = 14 and a unit molar concentration (or with a pK = 15.74 and standard 55.56 molarity) since around pH 11 its buffering power becomes significant. The gel contains a 'conductivity quencher', i.e. a density gradient incorporated in the matrix, with the dense region located on the cathodic side (pH 11) for (a) smoothing the voltage gradient on the separation cell and (b) reducing the anodic electrosmotic flow due to the net positive charge acquired by the matrix at pH 11 (1 mM excess protonated amino groups to act as counterions to the 1 mm OH- groups in the bulk water solution generated by the local value of pH 11). Excellent focusing is obtained for such alkaline proteins as lysozyme (pI 10.55), So-6 (a leaf protein, pI 10.49), cytochrome c (pI 10.45) and ribonuclease (pI 10.12).
Journal of Biochemical and Biophysical Methods 11/1987; 15(1):41-8. · 2.33 Impact Factor
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Journal of Biochemical and Biophysical Methods 10/1983; 8(2):89-108. · 2.33 Impact Factor
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ABSTRACT: A new method for preparative protein purification is described, based on the use of Immobiline matrices. After electrofocusing, the protein zone of interest is recovered by electrophoretic transfer to a hydroxyapatite gel, from which it is eluted with 0.2 M phosphate buffer, pH 6.8, with yields for the proteins studied in the range 76-98%. For six different proteins, the focusing step gives a common upper limit of approximately 45 mg protein/ml gel as mean concentration in a focused protein zone. It is demonstrated that in practical preparative work, components with a pI difference of 0.007 pH units can be completely resolved, and that on a 5-mm-thick gel of dimensions 240 X 110 mm, samples containing as much as 400 mg of the major protein component can be applied. Focusing of large amounts of a salt-containing sample is demonstrated with the aid of human serum. A theoretical expression is given relating the concentration distribution and maximum protein concentration within a focused zone to the applied voltage, the pH slope used and the zone width. Based on this expression and the finding of an upper concentration limit for a protein we shown how to optimize the parameters in preparative work with immobilized pH gradients in relation to the separation power needed. Finally, it is shown that, in comparison with conventional preparative electrofocusing in polyacrylamide gels, immobilized pH gradients allow a ten-fold increase in load, whilst still giving a resolution comparable to that of analytical isoelectric focusing.
Journal of Biochemical and Biophysical Methods 10/1983; 8(2):135-55. · 2.33 Impact Factor
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ABSTRACT: A new technique for generating pH gradients in isoelectric focusing is described, based on the principle that the buffering groups are covalently linked to the matrix used as anticonvective medium. For the generation of this type of pH gradient in polyacrylamide gels, a set of buffering monomers, called Immobiline (in analogy with Ampholine), is used. The pH gradient gels are cast in the same way as pore gradient gels, but instead of varying the acrylamide content, the light and heavy solutions are adjusted to different pH values with the aid of the Immobiline buffers. Available Immobiline species make it possible to generate any narrow linear pH gradient between pH 3 and 10. The behaviour of these types of gradients in isoelectric focusing is described. Immobilized pH gradients show a number of advantages compared with carrier ampholyte generated pH gradients. The most important are: (1) the cathodic drift is completely abolished; (2) they give higher resolution and higher loading capacity; (3) they have uniform conductivity and buffering capacity; (4) they represent a milieu of known and controlled ionic strength.
Journal of Biochemical and Biophysical Methods 10/1982; 6(4):317-39. · 2.33 Impact Factor
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ABSTRACT: The reference plasma protein map, obtained with immobilized pH gradients in the first dimension of two-dimensional electrophoresis, is presented. By microsequencing, more than 40 polypeptide chains were identified. The new polypeptides and previously known proteins are listed in a table and labeled on the protein map, thus providing an update of the human plasma two-dimensional gel database.
Electrophoresis 13(9-10):707-14. · 3.30 Impact Factor
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ABSTRACT: A highly reproducible, commercial and nonlinear, wide-range immobilized pH gradient (IPG) was used to generate two-dimensional (2-D) gel maps of [35S]methionine-labeled proteins from noncultured, unfractionated normal human epidermal keratinocytes. Forty one proteins, common to most human cell types and recorded in the human keratinocyte 2-D gel protein database were identified in the 2-D gel maps and their isoelectric points (pI) were determined using narrow-range IPGs. The latter established a pH scale that allowed comparisons between 2-D gel maps generated either with other IPGs in the first dimension or with different human protein samples. Of the 41 proteins identified, a subset of 18 was defined as suitable to evaluate the correlation between calculated and experimental pI values for polypeptides with known composition. The variance calculated for the discrepancies between calculated and experimental pI values for these proteins was 0.001 pH units. Comparison of the values by the t-test for dependent samples (paired test) gave a p-level of 0.49, indicating that there is no significant difference between the calculated and experimental pI values. The precision of the calculated values depended on the buffer capacity of the proteins, and on average, it improved with increased buffer capacity. As shown here, the widely available information on protein sequences cannot, a priori, be assumed to be sufficient for calculating pI values because post-translational modifications, in particular N-terminal blockage, pose a major problem. Of the 36 proteins analyzed in this study, 18-20 were found to be N-terminally blocked and of these only 6 were indicated as such in databases. The probability of N-terminal blockage depended on the nature of the N-terminal group. Twenty six of the proteins had either M, S or A as N-terminal amino acids and of these 17-19 were blocked. Only 1 in 10 proteins containing other N-terminal groups were blocked.
Electrophoresis 15(3-4):529-39. · 3.30 Impact Factor
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ABSTRACT: To achieve excellent isoelectrofocusing results with the use of Immobiline gels, the quality of the support is essential. Effects such as diffuse bands, missing protein fractions, streaking and trailing could originate from a support of inadequate quality. Two different treatments to eliminate these effects were evaluated. A washing procedure improves the band sharpness, and addition of carrier ampholytes eliminates streaking and trailing.
Journal of Biochemical and Biophysical Methods 16(2-3):165-70. · 2.33 Impact Factor
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ABSTRACT: N-Terminal sequence analysis of proteins separated by two-dimensional polyacrylamide gel electrophoresis and transferred onto polyvinylidene difluoride (PVDF) membranes has become the method for molecular characterization of proteins contained in biological samples. However, the proteins of lower abundance cannot be sequenced directly, without improving the technique. We have studied a drying method on several PVDF membranes including Trans-Blott, Immobilon P and Problott. Using Amido Black, Coomassie Brilliant Blue R-250 and Ponceau S, we have obtained, in comparison with the non-dried membranes, an enormous increase in the number of detectable proteins.
Electrophoresis 13(9-10):715-7. · 3.30 Impact Factor
