Recovery of proteins on a milligram scale from polyacrylamide electrophoresis gels,exemplified by purification of a retinol-binding protein

An apparatus suitable for the recovery of proteins from polyacrylamide gels on a milligram scale by displacement electrophoresis (isotachophoresis) is described along with a buffer system that is suitable for this purpose with most proteins. The technique is illustrated by the recovery of a protein from a 15% polyacrylamide gel. The recovery was almost quantitative and the eluted protein showed little contamination upon quantitative amino acid analysis and automatic Edman degradation.     

Separation of macromolecules in isotachophoresis systems involving single or multiple counterions

The isotachcophoresis principle provides unique opportunities for rational designs of fractionation procedures involving charged molecules. Theoretically any two charged molecules that are soluble under the experimental conditions involved can be physically separated if their electrophoretic net mobilities differ only slightly in the electrophoresis medium used. A theoretical and practical outline is presented that enables the reader to set up this fractionation system and on a rational basis develop fractionation procedures for a given set of charged macromolecules by isotachophoresis with simple and well characterized ampholytes as spacer substances. The planning of preparative experiments in this approach is based on results obtained from rapid analytical screens on a microgram scale. The report includes an appendix containing the theoretical basis for computation of buffer compositions in the isotachophoretic steady state with mono/polyvalent constituents in systems involving one or more counterions and controlled amounts of interferiong ions.     

Ultracentrifugation in polyethylene tubing: An efficient method to concentrate protein solutions on the microliter scale

An ultracentrifugation procedure is described to concentrate protein solutions on the microliter scale. Protein solutions were centrifuged in U-shaped lengths of polyethylene tubing at 160 000 × g for 15 h and thereafter fractionated by cutting the tubing. The method can be performed in a conventional ultracentrifuge and needs no special equipment.     

Precolumn concentration of protein samples by displacement electrophoresis (isotachophoresis) followed by high-performance molecular sieve chromatography on a packed agarose column

The use of displacement electrophoresis for the concentration of dilute protein solutions and the construction of a column suitable for this purpose are described. The concentrated protein zone can be pumped directly from the electrophoresis column into a gel-filtration column, which greatly reduces losses of protein. Recoveries of 95% or better were obtained even for small amounts of protein. The electrophoretically concentrated samples gave virtually the same elution profiles as did samples injected in a small volume without the use of electrophoretic preconcentration.     

Monoclonal antibodies biosimilarity assessment using transient isotachophoresis capillary zone electrophoresis-tandem mass spectrometry

Out of all categories, monoclonal antibody (mAb) therapeutics attract the most interest due to their strong therapeutic potency and specificity. Six of the 10 top-selling drugs are antibody-based therapeutics that will lose patent protection soon. The European Medicines Agency has pioneered the regulatory framework for approval of biosimilar products and approved the first biosimilar antibodies by the end of 2013. As highly complex glycoproteins with a wide range of micro-variants, mAbs require extensive characterization through multiple analytical methods for structure assessment rendering manufacturing control and biosimilarity studies particularly product and time-consuming. Here, capillary zone electrophoresis coupled to mass spectrometry by a sheathless interface (CESI-MS) was used to characterize marketed reference mAbs and their respective biosimilar candidate simultaneously over different facets of their primary structure. CESI-MS/MS data were compared between approved mAbs and their biosimilar candidates to prove/disconfirm biosimilarity regarding recent regulation directives. Using only a single sample injection of 200 fmol, CESI-MS/MS data enabled 100% amino acids (AA) sequence characterization, which allows a difference of even one AA between 2 samples to be distinguished precisely. Simultaneously glycoforms were characterized regarding their structures and position through fragmentation spectra and glycoforms semiquantitative analysis was established, showing the capacity of the developed methodology to detect up to 16 different glycans. Other posttranslational modifications hotspots were characterized while their relative occurrence levels were estimated and compared to biosimilars. These results proved the value of using CESI-MS because the separation selectivity and ionization efficiency provided by the system allowed substantial improvement in the characterization workflow robustness and accuracy. Biosimilarity assessment could be performed routinely with a single injection of each candidate enabling improvements in the biosimilar development pipeline.     

Polyacrylamide gel electrophoresis: recovery of non-stained and stained proteins from gel slices

Following electrophoresis or isoelectric focusing in gels of polyacrylamide the protein band of interest is cut out and placed above a sucrose gradient column, containing carrier ampholytes (Pharmalyte). By electrophoresis, isoelectric focusing or displacement electrophoresis the proteins migrate out of the gel slice and into the isoelectric focusing column for concentration and further purification. From this column, the proteins can be withdrawn and their isoelectric points determined. Even after staining with Coomassie Brilliant Blue at least some proteins can be recovered by this technique and used for further analyses, for instance amino acid determinations. The focusing in a pH gradient by carrier ampholytes can be replaced by an electrophoresis in a conductivity gradient column. However, in comparison with isoelectric focusing, this concentration technique has the drawback of not permitting further purification of the eluted protein.     

Isotachophoretic investigations into the speciation of niobium-95 and stable niobium

Abstract

Isotachophoretic analysis has demonstrated the formation of ⁹⁵Nb (V) citrate and a polymeric niobium-containing material, when ⁹⁵Nb is dissolved in dilute nitric acid and mixed with trisodium citrate. Stable niobium (V) citrate has been shown to exist in two forms.     

Monoclonal antibodies biosimilarity assessment using transient isotachophoresis capillary zone electrophoresis-tandem mass spectrometry

Out of all categories, monoclonal antibody (mAb) therapeutics attract the most interest due to their strong therapeutic potency and specificity. Six of the 10 top-selling drugs are antibody-based therapeutics that will lose patent protection soon. The European Medicines Agency has pioneered the regulatory framework for approval of biosimilar products and approved the first biosimilar antibodies by the end of 2013. As highly complex glycoproteins with a wide range of micro-variants, mAbs require extensive characterization through multiple analytical methods for structure assessment rendering manufacturing control and biosimilarity studies particularly product and time-consuming. Here, capillary zone electrophoresis coupled to mass spectrometry by a sheathless interface (CESI-MS) was used to characterize marketed reference mAbs and their respective biosimilar candidate simultaneously over different facets of their primary structure. CESI-MS/MS data were compared between approved mAbs and their biosimilar candidates to prove/disconfirm biosimilarity regarding recent regulation directives. Using only a single sample injection of 200 fmol, CESI-MS/MS data enabled 100% amino acids (AA) sequence characterization, which allows a difference of even one AA between 2 samples to be distinguished precisely. Simultaneously glycoforms were characterized regarding their structures and position through fragmentation spectra and glycoforms semiquantitative analysis was established, showing the capacity of the developed methodology to detect up to 16 different glycans. Other posttranslational modifications hotspots were characterized while their relative occurrence levels were estimated and compared to biosimilars. These results proved the value of using CESI-MS because the separation selectivity and ionization efficiency provided by the system allowed substantial improvement in the characterization workflow robustness and accuracy. Biosimilarity assessment could be performed routinely with a single injection of each candidate enabling improvements in the biosimilar development pipeline.     

Electrophoresis today and tomorrow: Helping biologists' dreams come true

Intensive research and development of electrophoresis methodology and instrumentation during past decades has resulted in unique methods widely implemented in bioanalysis. While two‐dimensional electrophoresis and denaturing polyacrylamide gel electrophoresis in sodium dodecylsulfate are still the most frequently used electrophoretic methods applied to analyses of proteins, new miniaturized capillary and microfluidic versions of electromigrational methods have been developed. High‐throughput electrophoretic instruments with hundreds of capillaries for parallel separations and laser‐induced fluorescence detection of labeled DNA strands have been of key importance for the scientific and commercial success of the Human Genome Project. Another powerful method, capillary isoelectric focusing with pressurized and pH‐driven mobilization, provides efficient separations and on‐line sensitive detection of proteins, bacteria and viruses. Electrophoretic microfluidic devices can integrate single‐cell injection, cell lysis, separation of its components and fluorescence or mass spectrometry detection. These miniaturized devices also proved the capability of single‐molecule detection.