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.
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.
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.
Streaking is a severe problem when narrow range basic immobilized pH gradient strips are used as the first dimension of two-dimensional (2-D) electrophoresis. It is demonstrated that this cysteinyl related streaking is eliminated when focusing is done in the presence of hydroxyethyl disulfide (DeStreak). Use of DeStreak also results in 2-D maps with simplified spot patterns and improved reproducibility.
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