Nevertheless, before the mass spectrometry is applied, the sample is digested by trypsin into short peptides and then fractionated by isoelectric focusing into so called fractions which allows to reduce MS analysis complexity. Therefore, 2D-PAGE has been today replaced in many cases by gel-free techniques such as high-throughput mass spectrometry (MS). Unfortunately, 2D-PAGE suffers from several intrinsic technical problems (e.g., performs poorly for very large, very small, extremely acidic or basic proteins). One of the oldest, but still widely used technique is 2-D polyacrylamide gel electrophoresis (2D-PAGE), where proteins are separated in two dimensions on a gel and identified using estimated molecular weight and isoelectric point ( pI is the pH value at which the net charge of a macromolecule is zero, and therefore its electrophoretic mobility is stopped). Over the years, many techniques were introduced to allow to accomplish the task. The procedure relies on physicochemical properties of amino acids such as a molecular mass or a charge. Next, individual proteins are separated and finally identified. This article was reviewed by Frank Eisenhaber and Zoltán GáspáriĪnalysis of proteins starts from the heterogeneous mixture (lysate) from which protein fraction needs to be isolated. The IPC service is freely available at Peptide and protein datasets used in the study and the precalculated pI for the PDB and some of the most frequently used proteomes are available for large-scale analysis and future development. Moreover, the prediction of pI using the IPC pKa’s leads to fewer outliers, i.e., predictions affected by errors greater than a given threshold. According to the presented benchmarks, the newly developed IPC pKa sets outperform previous algorithms by at least 14.9 % for proteins and 0.9 % for peptides (on average, 22.1 % and 59.6 %, respectively), which corresponds to an average error of the pI estimation equal to 0.87 and 0.25 pH units for proteins and peptides, respectively. Here, I present the Isoelectric Point Calculator (IPC), a web service and a standalone program for the accurate estimation of protein and peptide pI using different sets of dissociation constant ( pKa) values, including two new computationally optimized pKa sets. Additionally, pI estimation can be helpful during protein crystallization trials. Accurate estimation of the isoelectric point ( pI) based on the amino acid sequence is useful for many analytical biochemistry and proteomics techniques such as 2-D polyacrylamide gel electrophoresis, or capillary isoelectric focusing used in combination with high-throughput mass spectrometry.
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