Immobilized pH gradients (IPG) simulator--an additional step in pH gradient engineering: II. Nonlinear pH gradients

While in the companion paper (Tonani, C. & Righetti, P. G., Electrophoresis 1991, 12, 1011-1021) we gave the general outline of our new computer program, immobilized pH gradients (IPG) simulator, able to simulate and optimize linear pH gradients for isoelectric focusing in immobilized pH gradients, in the present report we extend the application of such a program to: (i) convex exponential gradients, (ii) logarithmic and (iii) polynomial gradients. Such gradients are meant to give equal space to protein spots in complex protein mixtures (e.g., cell lysates, biological fluids) and follow the statistical distribution of protein pI values along the pH axis. They will prove of fundamental importance in two-dimensional maps, both because they optimize the spreading of spots in the two-dimensional plane and because of the excellent reproducibility of immobilized pH gradients. The following concave exponential recipes are given: pH 3-8, pH 3-9, pH 3-10, pH 3-11, pH 4-7, pH 4-8, pH 4-9, pH 4-10, pH 4-11, pH 5-8, pH 5-9, and pH 5-10, as well as the most extended pH 2.5-11 interval. Two interesting logarithmic gradients are described: pH 3-6 and pH 3-7 and one sigmoidal (derived with a polynomial of 5th degree): pH 3-11.     

Proteome database of unsensitized CD4 positive T lymphocytes in T cell receptor transgenic mice

We established a two-dimensional electrophoresis (2-DE) mapping database of splenic CD4 T cells prepared from I-A(d)-restricted ovalbumin (OVA)(323-339) specific T cell receptor (TCR) transgenic mice (OVA23-3). First we examined the purification of CD4 T cells and found that the high purity of cells produced more accurate protein maps. The first dimension utilized narrow-range immobilized pH gradients (IPGs), pH 4.0-5.0, pH 4.5-5.5, pH 5.0-6.0, and pH 5.5-6.7. Approximately 1300 spots were detected by silver staining. Detection was performed by in-gel tryptic digestion of the spots, matrix assisted laser desorption/ionization-time of flight-mass spectrometry (MALDI-TOF-MS) technology and database searches via the world wide web (WWW). We have so far identified 255 proteins on 2-DE gels of whole cell lysates. This is the first construction of a proteome database for murine unsensitized CD4 T lymphocytes. To examine this further, 2-DE mapping was utilized for splenic CD4 T cells from another TCR transgenic mouse strain (DO11.10 TCR transgenic mice). Mapping patterns were found to be almost identical to those from CD4 T cells from OVA23-3 mice. These results indicated that the 2-DE maps in this study could be used for mouse CD4 T cells to examine protein changes in cells given certain stimuli.     

A high-resolution reference map for cytoplasmic and membrane-associated proteins of Corynebacterium glutamicum

We present a high-resolution reference map for soluble proteins obtained from Corynebacterium glutamicum cells grown in glucose minimal medium. The analysis window covers the pl range from 4-6 and the molecular mass range from 5-100 kDa. Using overlapping narrow immobilized pH gradients for isoelectric focusing, 970 protein spots were detected after second-dimensional separation on SDS-polyacrylamide gels and colloidal Coomassie-staining. By tryptic peptide mass fingerprinting 169 protein spots were identified, representing 152 different proteins including many enzymes involved in central metabolism (18), amino acid biosynthesis (24) and nucleotide biosynthesis (11). Thirty-five of the identified proteins have no known function. A comparison of the observed and the expected physicochemical properties of the identified proteins indicated that nine proteins were covalently modified, since variants with apparently identical molecular mass, but differing pl were detected. The N-termini of eight proteins were determined by post-source decay (PSD) analysis of selected peptides. In addition to the soluble proteins, a map of the membrane-bound proteins within the pl range 4-7 is presented, which contains 660 protein spots, 22 of which were identified, representing 13 different proteins.     

Alkaline proteins of Bacillus subtilis: first steps towards a two-dimensional alkaline master gel

The genomic sequence of Bacillus subtilis, which is the best studied Gram-positive bacterium, enabled us to obtain a theoretical two-dimensional (2-D) map, demonstrating that about one-third of this proteome has a theoretical alkaline isoelectric point (pI). This represents an important part of the entire proteome, which is not detectable in conventional 2-D gels (pH range 4-7). Sequence analysis revealed that 91% of the ribosomal proteins and a high amount of theoretical membrane proteins should be localized in the alkaline pH range requiring different protein extraction procedures. In order to find the pH range which gives the best resolution results for the alkaline proteins of B. subtilis, immobilized pH gradients (IPGs) with different pH ranges (pH 6-10, 6-11, 4-12, 9-12, and 3-10) were tested and optimized for IPG 4-12. Here we present a version of a first alkaline master 2-D gel for B. subtilis, which is a further complement of the already existing master gel (pH 4-7) in the Sub2D database. Almost 150 spots could be detected and 41 proteins have already been identified.     

Two-dimensional electrophoresis with immobilized pH gradients of leaf proteins from barley (Hordeum vulgare): method, reproducibility and genetic aspects

Leaf proteins from 14 barley cultivars (Hordeum vulgare) were analyzed by two-dimensional electrophoresis with immobilized pH gradients (IPG 4-7 and IPG 6-10) in the first dimension. Highly reproducible two-dimensional patterns were obtained, owing to constant spot positions along the isoelectric focusing axis. A number of variety-specific protein spots were detected, allowing us to discriminate barley cultivars not only into main groups but into individual cultivars.     

Two-dimensional protein map of human vastus lateralis muscle

Protein samples of human vastus lateralis muscle were analyzed by two-dimensional gel electrophoresis, using immobilized pH gradients encompassing several pH regions in the first dimension and sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the second dimension. More than 500 protein spots on each gel were detected by silver staining, of which 150 were excised, digested in-gel with trypsin and characterized by matrix assisted laser desorptioin/ionization-mass spectrometry and tandem electrospray mass spectrometry. Using these techniques, 124 spots including contractile proteins and metabolic enzymes were identified. This database should provide a valuable resource for the definition of the functional properties of muscle fibres and for assessment of the influence of e.g., hypoxia, ischaemia and ageing on protein level.     

pH titration curves of the desialylated human alpha 1-acid glycoprotein variants by combined isoelectrofocusing-electrophoresis: utilization in the development of a fractionation method for the protein variants by chromatography on immobilized metal affinity adsorbent.

Using a two-dimensional isoelectrofocusing (IEF)-electrophoresis technique, the pH titration curves of the three main desialylated variants (F1, S and A) of human alpha 1-acid glycoprotein (AAG) were studied to assist in the development of a fractionation method for the AAG variants. For this purpose, different AAG samples, each corresponding to one of the three main phenotypes of the protein (F1S/A, F1/A and S/A), were first purified by chromatographic separation of individual human plasma samples on immobilized Cibacron Blue F3G-A. The purified AAG samples were then disialylated and their heterogeneity was checked by analytical IEF. The pH-mobility curves of the desialylated AAG samples were displayed in polyacrylamide gel slabs, under a constant set of experimental conditions, by carrying out electrophoresis of the protein samples perpendicularly to two stationary pH gradients: a large gradient (pH 3.5-9.5) and a narrow gradient (pH 5-8). The curves showed that all the desialylated variants of AAG exhibited small charge differences and moved closely together between about pH 3.5-5.5 and pH 7.5-9.5. However, the variants were found to show microheterogeneity in their total charge between about pH 5.5 and 7.5 due to the titrated ionizable groups involved along this pH zone. This microheterogeneity was assumed to be accounted for by the existence of differences between the titratable histidyl residues of the AAG variants. Consequently, the interactions of the variants with immobilized transition metal ions were studied at pH 7, using affinity chromatography on an iminodiacetate Sepharose-Cu(II) gel. It was found that the A variant was strongly bound by immobilized Cu(II) ions, whereas the F1 and S variants interacted non-specifically with the immobilized ligand. This finding allowed the development of a rapid and effective fractionation method for desialylated AAG into its A and F1 or S variants, depending on the AAG phenotype, by chromatography on an immobilized affinity Cu(II) adsorbent. The quantitative relationships between immobilized Cu(II) ions and desialylated AAG (the apparent association constant and gel protein-binding capacity) were also determined using a non-chromatographic equilibrium binding technique.     

Revisiting electroblotting of immobilized pH gradient gels: a new protocol for studying post-translational modification of proteins

Currently, one of the most important techniques in proteome analysis is two-dimensional electrophoresis that is widely used for separation of thousands of different protein spots. Nevertheless, characterization of special aspects in protein patterns, e.g., separation of protein isoforms generated by post-translational modifications, requires individual detection methods, e.g., immunoblotting. Blotting of proteins after fractionation in immobilized pH gradients has always caused some problems. In this paper we present an optimized protocol for immunoblotting after isoelectric focusing using immobilized pH gradient (IPG) strips cast on Net-Fix as an internal support that is permeable to electric current. The focusing procedure can be carried out in commonly used IPG systems, e.g., the IPGphor by Amersham Biosciences, where electrically assisted rehydration can be performed. This may be of interest for many laboratories, because the same system as used for the first dimension of two-dimensional polyacrylamide gel electrophoresis (2-D PAGE) is involved. As an example, we describe separation and detection of up to seven isoforms of recombinant erythropoietin beta using semidry blotting of IPG strips and visualization by chemiluminescence detection.     

Recent developments in electrophoretic methods

13. Given the recent extended review by Vesterberg [J. Chromatogr., 480 (1989) 3-19] of electrokinetic methods, this survey has been restricted to the last decade, which has seen tremendous progress in several fields. DNA electrophoresis has experienced strong developments, both in the sequencing strategies (which have been largely automated with the use of fluorescent probes) and in pulsed field analysis of mega-DNA fragments, which has seen such developments as inverse-field, contour-clamped and rotating gel platforms, all allowing for straight band migration in each lane. Chromosome size mapping has now become a reality. Two-dimensional (2D) maps have also shown a dramatic improvement in performance, largely through the development of immobilized pH gradients, giving highly reproducible protein spots in the 2D plane and allowing the exploration of very narrow pH regions. Blotting techniques, combined with 2D mapping, allow sequence analysis and fingerprinting of a single polypeptide spot in a complex sample without resorting to lengthy chromatographic purification steps. Chromatophoresis generates a novel type of 2D mapping, based on hydrophobicity vs. size, rather than on charge vs. size, by direct coupling of a reversed-phase high-performance liquid chromatographic (HPLC) eluate to sodium dodecyl sulphate electrophoresis. The new rising star, capillary zone electrophoresis, offers speed, a large number of theoretical plates, selectivity and small sample requirements in a highly automated equipment.     

Proteome analysis of human liver tumor tissue by two-dimensional gel electrophoresis and matrix assisted laser desorption/ionization-mass spectrometry for identification of disease-related proteins

Hepatocellular carcinoma (HCC) is a common malignancy worldwide and is a leading cause of death. To contribute to the development and improvement of molecular markers for diagnostics and prognostics and of therapeutic targets for the disease, we have largely expanded the currently available human liver tissue maps and studied the differential expression of proteins in normal and cancer tissues. Reference two-dimensional electrophoresis (2-DE) maps of human liver tumor tissue include labeled 2-DE images for total homogenate and soluble fraction separated on pH 3-10 gels, and also images for soluble fraction separated on pH 4-7 and pH 6-9 gels for a more detailed map. Proteins were separated in the first dimension by isoelectric focusing on immobilized pH gradient (IPG) strips, and by 7.5-17.5% gradient sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) gels in the second dimension. Protein identification was done by peptide mass fingerprinting with delayed extraction-matrix assisted laser desorption/ionization-time of flight-mass spectrometry (DE-MALDI-TOF-MS). In total, 212 protein spots (117 spots in pH 4-7 map and 95 spots in pH 6-9) corresponding to 127 different polypeptide chains were identified. In the next step, we analyzed the differential protein expression of liver tumor samples, to find out candidates for liver cancer-associated proteins. Matched pairs of tissues from 11 liver cancer patients were analyzed for their 2-DE profiles. Protein expression was comparatively analyzed by use of image analysis software. Proteins whose expression levels were different by more than three-fold in at least 30% (four) of the patients were further analyzed. Numbers of protein spots overexpressed or underexpressed in tumor tissues as compared with nontumorous regions were 9 and 28, respectively. Among these 37 spots, 1 overexpressed and 15 underexpressed spots, corresponding to 11 proteins, were identified. The physiological significance of the differential expressions is discussed.