Cetyltrimethylammonium bromide discontinuous gel electrophoresis: Mr-based separation of proteins with retention of enzymatic activity.

A discontinuous polyacrylamide and agarose gel electrophoresis system is presented here which allows the fine separation of proteins based on molecular weight with the concomitant retention of native enzymatic activity. This system, referred to as the CAT gel, uses the cationic detergent cetyltrimethylammonium bromide (CTAB) and includes a stacking gel based on the zwitterion arginine and the buffer N-tris(hydroxymethyl)-methylglycine. The CAT gel system allows specific enzyme histochemical detection and localization of proteins after gel electrophoresis. We present evidence that the CAT system stacked and separated a broad range of proteins into discrete bands which migrate as a linear function of log Mr. We have also assessed the effect of CTAB solubilization on the activity of several proteins and showed that some proteins separated by CAT electrophoresis maintain high levels of native enzymatic activity and may be detected histochemically in situ.     

A simplified gel electrophoretic system and its validity for molecular weight determinations of protein-cetyltrimethylammonium complexes

Proteins ranging in molecular weight from 90,000 to 15,000 daltons were studied by polyacrylamide gel electrophoresis in the presence of cetyltrimethylammonium bromide (CTAB) at pH 4.6. The results showed a linear relationship between log molecular weight and relative electrophoretic mobility. The simplicity and reliability of the method offer an alternative means of determination of molecular weights of a wide variety of proteins by gel electrophoresis.     

Levels of ribosomal protein S1 and elongation factor G in the growth cycle of Escherichia coli.

The relative levels of ribosomes, ribosomal protein S1, and elongation factor G in the growth cycle of Escherichia coli were examined with two-dimensional polyacrylamide gel electrophoresis. Nonequilibrium pH gradient polyacrylamide gel electrophoresis was used in the first dimension, and polyacrylamide gradient-sodium dodecyl sulfate gel electrophoresis was used in the second dimension. The identities of protein spots containing S1 and elongation factor G were confirmed by radioiodination of the proteins and peptide mapping of the radiolabeled peptides. The levels of ribosomes and ribosomal protein S1 were coordinately reduced during transition from exponential phase to stationary phase. There was no accumulation of S1 in the stationary phase. In marked contrast, the level of elongation factor G showed no significant change from exponential phase to stationary phase. The relative level of elongation factor G compared with ribosomes or S1 increased by about 2.5-fold during transition from exponential phase to stationary phase. The results show that there are differences between the regulation of the levels of elongation factor G and of ribosomal proteins, including S1, apparent during the transition from exponential to stationary phase.     

Studies on Nuclei of Paramecium aurelia. II. Amino Acid Composition and Electrophoretic Properties of the Chromosomal Basic Proteins*

SYNOPSIS. The basic proteins of Paramecium aurelia nucleus were extracted from isolated nuclei and deoxyribonucleoprotein (DNP) of such nuclei. About 35–40% of the nuclear protein, predominantly a lysine-rich histone, is acid soluble. Five major components of the histone can be distinguished by polyacrylamide gel electrophoresis. Some components of Paramecium histone are similar to those of mammalian histones in their electrophoretic mobility, but they differ from the latter in the electrophoretic velocity and relative levels. The basic to acidic amino acid ratio of the histone from the ciliate is ～1.1–1.5, and its amino acid composition resembles closely that of yeast histone. Through the use of Sephadex G-200 gel filtration for purification of the histones extracted directly from isolated nuclei 2 basic proteins were resolved—component I, with an elution volume of 1.4, constitutes ～20% and component II, with an elution volume of 1.9, ～80%.     

Two-Dimensional Immobilized Metal Affinity Electrophoresis for Capturing a Phosphoprotein

A two-dimensional immobilized metal affinity electrophoresis method is described here. In this method, ferric ions are immobilized in the second-dimensional polyacrylamide gel to extract the phosphoprotein β-casein from a mixture containing proteins with a broad range of pI and MW. Native 7.5–15% gradient tris-glycine gel with SDS tris-glycine gel running buffer are used so that proteins can be separated according to their molecular mass in the second dimension.     

Immunological detection of specific proteins in total cell extracts by fractionation in gels and transfer to diazophenylthioether paper

We describe a sensitive immunological procedure for the detection of specific proteins in total cell extracts and for the comparison of antigenically related polypeptides. Proteins are fractionated in polyacrylamide gels and transferred electrophoretically to diazophenylthioether paper, to which they bind covalently. Specific proteins are identified by incubation with specific antibody and 125 I-labeled protein A from Staphylococcus aureus, followed by autoradiography. High-resolution separation of proteins prior to transfer is achieved by polyacrylamide gradient gel electrophoresis in the presence of sodium dodecyl sulfate or by nonequilibrium pH gradient electrophoresis, followed by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. Further information can be obtained by limited enzymatic proteolysis of the proteins in the gel following polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and analysis of the cleavage products by gel electrophoresis at right angles to the first gel. We show the application of this technique to the detection and comparison in extracts from infected cells of proteins related immunologically to the simian virus 40 capsid proteins VP1 and VP3.     

A two-dimensional polyacrylamide gel electrophoresis (PAGE) system using sodium dodecyl sulfate-PAGE in the first dimension.

A two-dimensional gel electrophoretic system for the separation of cellular proteins is described. The system utilizes sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis in the first dimension and polyacrylamide gel isoelectric focusing in the second dimension. The system offers a good starting point for many difficult protein separations requiring SDS.     

Analysis by two-dimensional polyacrylamide gel electrophoresis of the in vivo phosphorylation of ribosomal proteins derived from free and membrane-bound polysomes

Analysis of in vivo phosphorylation of mouse liver ribosomal proteins was performed by two-dimensional polyacrylamide gel electrophoresis following 32P-injection. Our method is special and differs from other eukaryotic systems reported in that all proteins separated on the first dimension gel are completely solubilized, moving quantitatively to the second dimension gel. Only ribosomes from polysomes were used, ensuring analysis of ribosomes actively engaged in protein synthesis. We resolved sixty-five distinct proteins from ribosomes from membrane bound or free polysomes. In both cases radioautography revealed similar labeled patterns with one highly phosphorylated ribosomal protein and five marginally labeled spots.     

Investigations on the outer membrane proteins of Salmonella typhimurium.

The number, nature and organization of the outer membrane proteins of Salmonella typhimurium have not yet been resolved. Therefore these proteins were isolated using a concentrated solution of guanidine hydrochloride and studied using different analytical techniques. Upon chromatography on Sephadex G-200 four fractions were obtained. Only the fraction containing a protein of molecular weight 13,000 produced immunoprecipitation reactions with the antisera raised against the whole bacteria. On polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate, 7 major proteins were found, with molecular weights between 13,000 and 43,000. Isoelectric focusing on 4.6% polyacrylamide gels resolved the outer membrane proteins into 10 bands with apparent isoelectric points between 5.0 and 8.4. Finally these proteins could be further resolved into as many as 50 spots where a two-dimensional electrophoresis was carried out with isoelectric focusing in the first dimension, and polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate in the second dimension. These results demonstrated that the outer membrane proteins of S. typhimurium are extremely heterogeneous. To investigate the mode of organization of lipopolysaccharides in the outer membrane, the membrane proteins were separated by the liquid isoelectric focusing technique. Lipopolysaccharides were primarily found to be associated with a protein of isoelectric point 7.8.     

Two-dimensional polyacrylamide-gel electrophoresis of the proteins and glycoproteins of the human erythrocyte membrane.

A two-dimensional polyacrylamide gel electrophoresis technique has been developed, improving the analytical separation of some proteins and glycoproteins of the human erythrocyte membrane. Freshly prepared membranes are totally solubilized, subjected to dodecylsulfate--polyacrylamide gel electrophoresis in the first dimension, followed by electrophoresis in the second dimension, using a detergent-free polyacrylamide gradient gel. By this method the proteins of the human erythrocyte membrane could be resolved into a two-dimensional pattern, which has been shown to be highly reproducible with respect to various blood-groups and within one blood-group from specimen to specimen. The method enables especially the investigation of the hydrophobic and very likely integrated membrane proteins and glycoproteins. Thus, band III[Fairbanks, G., Steck, Th. & Wallach, D. F. H., Biochemistry, 10, 2606--2617 (1971)] could be shown to consist of five proteins, one of them being the major glycoprotein of the human erythrocyte membrand. The two spectrin bands differed considerably in their two-dimensional patterns. The value of the given method for the investigation of membrane defects, which may be linked with various diseases of human erythrocytes, could be demonstrated in the case of two patients suffering from congenital dyserythropoetic anaemia.     

Two-dimensional electrophoresis of plant proteins with phastsystem using nonequilibrium pH gradient separation.

We have adapted a two-dimensional electrophoretic technique described by P. Z. O'Farrell et al. (Cell 12, 1133-1142, 1977) to Phastsystem, resolving both acidic and basic proteins by using nonequilibrium pH gradient electrophoresis in the first dimension and sodium dodecyl sulfate polyacrylamide gel electrophoresis in the second dimension. Protein separation was optimized for the analysis of plant proteins. The use of the Phastsystem apparatus reduced times of preparation and separation, allowing the rapid screening of plant proteins on a large scale of isoelectric points. This technique was used for the immunodetection and characterization of two stress-induced proteins in irradiated tomato leaves.     

Method of detection of protein kinase activity in polyacrylamide gel using two-dimensional protein separating system

Method for detection of protein kinase activity in polyacrylamide gel have been developed. After separation of proteins by isoelectric focusing in non-denaturing condition, gel was incubated in a reaction buffer containing [gamma-32P]ATP. 32P-labeled proteins were separated by subsequent SDS/PAGE electrophoresis in second dimension. The proposed method was used for detection of protein kinase activity in human blood serum and triton X-100 soluble proteins of heads of Drosophila melanogaster.     

Detection of serum proteins by native polyacrylamide gel electrophoresis using Blue Sepharose CL-6B-containing stacking gels

Analysis of serum proteins by native polyacrylamide gel electrophoresis is difficult because albumin is abundant in serum and interferes with the resolution of other proteins, especially alpha-antitrypsin which has mobility that is very similar to that of albumin. We present here a method in which serum proteins are separated by polyacrylamide gel electrophoresis using stacking gels containing Blue Sepharose CL-6B, which has a high affinity for albumin, lipoproteins, kinases, and pyridine-nucleotide-dependent oxidoreductases. During electrophoresis, proteins that bind to Blue Sepharose CL-6B stay in the stacking gel and do not migrate into the separating gel. As a consequence, certain proteins, including alpha(1)-antitrypsin, can be detected as clear bands. This method overcomes the requirement for fractionation of serum samples prior to electrophoresis to remove albumin and allows the simultaneous analysis of many samples.     

Separation of mammalian cell surface proteins by a two-dimensional gel electrophoresis system

Separation of externally exposed plasma membrane proteins of mammalian cells has been achieved by a new two-dimensional gel electrophoresis system. The proteins were separated in the first dimension on cylindrical polyacrylamide gels containing 0.1% sodium dodecyl sulfate (SDS) and in the second dimension on polyacrylamide slab gels containing 9 M urea, 0.1% SDS, and 0.1% Triton CF10. Using this method we have obtained reproducible high-resolution patterns of cell surface proteins of differentiated rat neuro-tumor cells in culture and of normal rat retinal cells. Different cell types show characteristic cell surface proteins in addition to ubiquitous ones. The number of common surface proteins between two cell types account for approximately half of the total surface proteins. By immunoprecipitation we have also found that rabbit anti-serum against a rat neuronal cell line can recognize most of these external proteins. Since the separation in the first dimension is done in the presence of SDS and the second dimension in the presence of SDS, a non-ionic detergent, and urea, the technique is particularly suitable for proteins that are of poor solubility. In addition to size, net charge and hydrophobicity appear to be important factors in the separation. Virtually all of the proteins that run in the first dimension can be recovered and further separated in the second.     

A new two-dimensional gel electrophoresis system for the analysis of complex protein mixtures: Application to the ribosome of E. coli

A new method for two-dimensional polyacrylamide gel electrophoresis of proteins is described. The method, illustrated here by its application for the analysis of ribosomal proteins of E. coli, has a high resolving power. The proteins S15 and S16 can be resolved either following alkylation or under reducing conditions. This was not possible with urea gel systems previously employed. The method should be advantageous in the identification of the components of dimers formed with the reagent methyl 4-mercaptobutyrimidate. An additional advantage of the new method is that both dimensions are run at an acidic pH. For ribosomal proteins it is therefore unnecessary to either polymerize the protein sample in the middle of the first dimension disc gel or to electrophorese two samples with opposite polarity.     

Sequence information and preparation of resolved by; two-dimensional gel electrophoresis: no longer just spots on gels

In 1975 O'Farrell described, in detail, a procedure to separate proteins by polyacrylamide gel electrophoresis in two dimensions. This powerful new technique relied on two characteristics of proteins: charge and molecular mass. In the first dimension, proteins were separated on the basis of net charge in a pH gradient by isoelectric focusing, and in the second dimension the proteins were further fractionated exclusively on the basis of their molecular mass by SDS gel electrophoresis. Since two-dimensional gel electrophoresis (2DGE) has a resolving power of at least 20 fold greater than one-dimensional electrophoresis, it has found wide spread application in modern biological research. However, beyond the detection of a given protein, 2DGE provides little additional information about a specific protein other than molecular mass, isoelectric point, and approximate relative abundance. In recent years, the development of new technologies have made it possible to directly obtain sequence information, and produce specific antisera for proteins resolved by 2DGE. These new technological developments serve to further increase the power and utility of 2DGE in the analysis of proteins of importance to plant physiology.     

Analysis of erythrocyte protein methyl esters by two-dimensional gel electrophoresis under acidic separating conditions

A two-dimensional polyacrylamide gel electrophoresis system which is suitable for the analysis of protein methylation reactions in cells incubated with L-[methyl-3H]methionine is described. The procedure separates proteins under primarily acidic conditions by isoelectric focusing in the first dimension and by sodium dodecyl sulfate electrophoresis at pH 2.4 in the second dimension. The low pH is essential for preserving protein [3H]methyl esters, but it limits the effective separating range of this system to proteins with isoelectric points between 4 and 8. With this system, we have shown that most, if not all, erythrocyte membrane and cytosolic proteins can act as substoichiometric methyl acceptors for an intracellular S-adenosylmethionine-dependent carboxyl methyltransferase and that protein carboxyl methylation reactions may be the major methyl transfer reaction in erythrocytes. These results are most consistent with the generation of protein substrate sites for the carboxyl methyltransferase by spontaneous deamidation and racemization reactions.     

Analysis of the chloroplast protein complexes by blue-native polyacrylamide gel electrophoresis (BN-PAGE)

Blue-native polyacrylamide gel electrophoresis (BN-PAGE) is a powerful procedure for the separation and characterization of the protein complexes from mitochondria. Membrane proteins are solubilized in the presence of aminocaproic acid and n-dodecylmaltoside and Coomassie-dyes are utilized before electrophoresis to introduce a charge shift on proteins. Here, we report a modification of the procedure for the analysis of chloroplast protein complexes. The two photosystems, the light-harvesting complexes, the ATP synthase, the cytochrome b ₆ f complex and the ribulose-bisphosphate carboxylase/oxygenase are well resolved. Analysis of the protein complexes on a second gel dimension under denaturing conditions allows separation of more than 50 different proteins which are part of chloroplast multi-subunit enzymes. The resolution capacity of the blue-native gels is very high if compared to 'native green gel systems' published previously. N-terminal amino acid sequences of single subunits can be directly determined by cyclic Edman degradation as demonstrated for eight proteins. Analysis of chloroplast protein complexes by blue-native gel electrophoresis will allow the generation of 'protein maps' from different species, tissues and developmental stages or from mutant organelles. Further applications of blue-native gel electrophoresis are discussed.     

Horizontal two-dimensional electrophoresis of plasma butyrylcholinesterase

Genetic variants of human plasma butyrylcholinesterase have been characterized and are highly relevant to anesthesiology. They might also represent potential genetic markers for neuropsychiatric disorders. Two-dimensional electrophoresis with isoelectrofocusing in the first and polyacrylamide gel electrophoresis in the second dimension has proved to be a powerful tool in search for genetic variants. Butyrylcholinesterase is an oligomeric enzyme with considerable charge heterogeneity. Conventional two-dimensional electrophoresis proved unsuitable for this enzyme possibly due to its tendency to aggregate by hydrophobic interactions. The inversion of the sequence applying polyacrylamide gel electrophoresis in the first and isoelectric focusing in the second dimension circumvented this problem.     

Purification of membrane proteins from Acholeplasma laidlawii by agarose suspension electrophoresis in Tween 20 and polyacrylamide and dextran gel electrophoresis in detergent-free media.

Four of the membrane proteins from Acholeplasma laidlawii that are soluble in the nonionic detergent Tween 20 have been purified by preparative electrophoretic techniques utilizing different supporting media. The last purification step for two of the major proteins was a preparative polyacrylamide gel electrophoresis performed in the absence of any detergent. The proteins were recovered by continuous elution. The purity of the fractions was examined by analytical polyacrylamide gel electrophoresis and crossed immunoelectrophoresis. Two of the minor proteins were purified by dextran gel electrophoresis as the final step, which was also performed in a detergent-free buffer. The separation was followed by scanning the dextran gel in ultraviolet light. The proteins were recovered by slicing the gel and degrading the gel slices with dextranase. The homogeneity of the fractions was checked by electroimmunoassay.