Poly(ADP-ribose) polymerase from Ehrlich ascites-tumour cells. Amino acid composition, N-terminal analysis and chemical cleavage of the purified protein.

Poly(ADP-ribose) polymerase was purified from Ehrlich ascites-tumour cells by two novel methods. Analysis for amino acid composition revealed a high percentage of acidic amino acids or their amides, and of basic amino acids. N-Terminal analysis with dansyl chloride revealed no terminal amino acid, indicating a blocked N-terminal amino group. Analysis by gel electrophoresis of protein treated with 3-bromo-3-methyl-2-[(2-nitrophenylthio)-3H-indole, under conditions where selective cleavage of the polypeptide chain at tryptophan residues is obtained, showed six major peptide bands.     

Fluorescent labeling of cysteinyl residues to facilitate electrophoretic isolation of proteins suitable for amino-terminal sequence analysis

A protein labeling procedure which enables detection of subpicomole quantities of proteins on sodium dodecyl sulfate (SDS)-polyacrylamide gels is described. Proteins are rendered fluorescent by reduction of disulfide bonds with dithiothreitol followed by alkylation with 5-N-[(iodoacetamidoethyl)amino]naphthalene-1-sulfonic acid (5-I-AEDANS) or 5-iodoacetamido-fluorescein. Labeling is performed prior to electrophoresis, thus eliminating the need for staining with dyes and destaining after electrophoresis. As little as 375 fmol (25 ng) of prelabeled bovine serum albumin can be readily visualized after electrophoresis. Bands are still visible after electrophoretic transfer to nitrocellulose. Simultaneous labeling of proteins in complex mixtures is possible using this technique. This includes cysteine containing proteins of disrupted Newcastle disease virus. The magnitudes of the molecular weight increases which occur upon labeling reflect the cysteine contents of proteins. The mode of chemical modification for the prelabeling procedure was chosen because of its compatibility with analytical techniques, such as amino acid analysis, peptide mapping, or sequence analysis, which may be applied to the protein after electroelution from SDS-acrylamide gels. It replaces the need for reduction and carboxymethylation prior to these analytical procedures. Protein-sequence analysis of prelabeled bovine serum albumin, including samples electroeluted from SDS-acrylamide gels, has justified the choice of this method to facilitate isolation of proteins for sequence analysis. Equivalent sequence data were obtained with reduced bovine serum albumin S-alkylated with iodoacetic acid or 5-I-AEDANS.     

A simple method for determination of intramolecular amino acid sequence of unpurified protein. Application to human serum protein adsorbed by silica particles.

Silica particles adsorbed several kinds of human serum proteins, especially 23 kDa molecular weight protein. After SDS-PAGE of adsorbed serum proteins, gel pieces containing 23 kDa protein was cut out and set in slot of stacking gel in second SDS-PAGE following overlay of Staphylococcus aureus V8 protease. After electrophoresis, gel was subjected to electroblotting onto polyvinylidene difluoride membrane. Both bands of dye-stained 23 kDa and the peptide were cut out from membrane and analyzed for amino acid sequence. Obtained sequences agreed well with amino terminal and intramolecular sequences of human HDL-apolipoprotein, A-I.     

Purification of phospholipase D from citrus callus tissue

Phospholipase D in extracts of soluble proteins from callus cultures derived from cotyledons of Citrus sinensis (L.) Osbeck is activated by Ca2+ and anionic detergents and has a pH optimum of 6.5. The enzyme was purified 703-fold over the crude protein extract with a yield of 15% by ammonium sulfate precipitation, ion exchange chromatography, gel filtration, hydrophobic interaction chromatography, and preparative acrylamide gel electrophoresis. Preparative electrophoresis was carried out using conventional slab gel equipment and electroelution of the sliced gel. Analytical sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the purified phospholipase revealed two bands of the same staining intensity running at 94.2K and 90.5K.     

Recovery of sodium dodecyl sulfate-proteins from gel electrophoretic bands in a single electroelution step for mass spectrometric analysis

Mass spectrometric analysis of proteins derived from bands in gel electrophoresis is incompatible with the covalent fluorescent labeling of the protein. Thus, if one wishes to take advantage of the capacity for computer-directed electroelution of electrophoresis apparatus with intermittent fluorescent scanning of the migration path, the protein must be labeled fluorescently in a noncovalent, reversible fashion. This was recently achieved by staining of SDS-proteins with Cascade blue and electrophoresis in barbital buffer. However, the method was not a practical one for the purpose of isolating proteins from gel electrophoretic bands and their transfer into the mass spectrometer for three reasons: (i) Ten consecutive electroelution steps were required to obviate pH changes in the electroelution chamber; (ii) electroeluates from six gel electrophoretic lanes needed to be pooled; (iii) excessive protein loads ranging from 7 to 33 microg/pool were required. The present study reports the solution to those three problems. Mass spectrometric (MALDI-TOF) characterization of five proteins was demonstrated (i) after a single electroelution step; (ii) using electroelution from a single gel of 0.3-cm(2) cross-sectional area; and (iii) using a protein load of 2 (in one case 4) microg. However, the migration rates of the Cascade blue-SDS-protein-barbital complexes derived from proteins with widely varying molecular weights proved to be the same. Thus, despite the three advances made, the method to date remains restricted to samples of single proteins.     

The subunit structure of rat liver pyruvate kinase

The amino acid composition for rat liver pyruvate kinase is reported. Thin layer peptide mapping of the tryptic digests yields 44 ninhydrin-reactive peptides, which is one-quarter the total number of lysyl and arginyl residues. No amino-terminal residue has been detected using the dansyl chloride procedure. Acid urea disc gel electrophoresis of the protein subunits yields only one protein band; yet, isoelectric focusing of the subunits in urea yields two protein bands. These results suggest that pyruvate kinase (L-type isozyme) consists of four subunits of similar primary structure, but with sufficient microheterogeniety to be able to resolve two types of subunits upon isoelectric focusing.     

Selective dansylation of M protein within intact influenza virions.

Exposure of purified influenza virions to [14C]dansyl chloride resulted in the covalent attachment of the dansyl chromophore to the virion. Gel electrophoresis revealed that the dansyl chromophore was specifically coupled to the internal membrane (M) protein. Purification of the M protein by gel filtration followed by cyanogen bromide cleavage and peptide fractionation revealed that four of six peptide peaks contained dansyl label. Acid hydrolysis of the separated peptide peaks followed by thin-layer chromatography revealed that dansyl label was coupled to lysine residues present in these peptides. The results of these investigations have demonstrated that the M protein molecule is the major viral polypeptide labeled when intact virions are exposed to dansyl chloride.     

Comparison of TCA and collagenase in the isolation of tissue collagen.

A rapid method of peptide mapping by thin layer electrophoresis and chromatography is described that permits good maps to be produced from as little as 0.5 nmole of protein by means of conventional staining procedures with ninhydrin. The method can be made even more sensitive by prior amidination of the protein amino groups using methyl-[1-¹⁴C]acetimidate, a simple synthesis of which is given. Because proteins generally contain many amino groups, autoradiographs of peptide maps of such radiolabeled proteins show a large number of spots in characteristic patterns, and the derivatization of the protein is easy and specific. A cheap and simply constructed apparatus for carrying out the thin layer electrophoresis is also described.     

COST-EFFECTIVE AND EFFICIENT APPARATUS FOR ELECTROELUTION OF MICRO- AND MACROGRAM QUANTITIES OF PROTEINS FROM POLYACRYLAMIDE GELS

Protein recovery from gel electrophoresis plays a significant role in functional genomics and proteomics. To assist in this, a simple, cost-effective, and efficient apparatus for electroelution of proteins has been designed. The performance of the apparatus was demonstrated using the proteins bovine serum albumin (BSA), phosphorylase, ovalbumin, pepsin, and trypsinogen. In all the cases the yield of elution was found to be consistently greater than 85% and the proteins could be eluted without degradation in less than 15 min. The utility of this method can be extended to protein elution from denatured and native polyacrylamide gels, DNA purification from agarose gels, and oligomeric primers purification from polyacrylamide gels. In addition to this, the method offers an effortless purification and characterization of microbial extracellular proteins. The eluted proteins can be directly used in N-terminal amino acid sequencing, and in amino acid and proteomics analyses.     

A 25,000 molecular weight protein constituent of human amyloid fibrils related to amyloid protein AA

Amyloid fibrils from a patient with diffuse amyloid disease are dissociated in 6 m guanidine hydrochloride and fractionated by gel chromatography. Two major components are separated on Sepharose 6B. Both proteins are characterized by chromatography, immunodiffusion, discontinuous gel electrophoresis, amino acid tryptic peptide mapping and amino acid sequence analysis. The smaller of the two components is typical of the known protein AA by size (8400 daltons), amino acid composition and a 30-residue N-terminal sequence. The larger of the components (25,000 daltons) undergoes electrophoresis as a single band and appears unaffected by thiol reduction. It differs from protein AA in amino acid content and by its tryptic peptide map, although it contains an N-terminal amino acid sequence identical to protein AA when carried to 20 residues. Treatment of this larger component by mild acid hydrolysis results in the release of the 8400-dalton protein AA. Fractionation after guanidine hydrochloride treatment of this particular amyloid fibril preparation is compared to the fractionation of a typical secondary amyloid preparation that contains only protein AA as the major component. The origin and relationship of the 8,400- and 25,000-dalton protein components is discussed.     

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.     

Analytical and preparative isoelectric focusing of peptides in immobilized pH gradients

A new method for peptide analysis and purification is described, based on isoelectric focusing in immobilized pH gradients. On the analytical scale, the peptide zones can now be revealed by an stain for primary and secondary amino group (e.g. ninydrin, fluorescamine, dansyl chloride) since the buffering species, unlike conventional carrier ampholytes, contain only carboxyl and tertiary amino groups. For preparative purposes, conditions have been described to remove most contaminants (e.g. unreacted monomers, non-cross-linked, short polyacrylamide chains) from the gel matrix before the electrophoretic run. However, ca. 2% of the gel dry mass is still present as extractable material. The focused peptides can be recovered in higly yields (ca. 90%) with a fairly high degree of purity (75%), the contaminants being mostly components eluted from the polyacrylamide gel.     

用有限酶切法分析蛋白质的氨基酸序列

报道了一个通过有限酶切蛋白质产生多肽片段的方法.蛋白质经单向SDS-聚丙烯酰胺凝胶电泳(SDS-PAGE)分离和用考马斯亮蓝短暂染色后,切下所需的蛋白质带,将其放入另一个SDS-PAGE凝胶的样品槽内,在电泳过程中该蛋白质被蛋白酶如蛋白酶V8降解,所产生的多肽片段随之被分离.电泳结束后,将多肽片段电印迹至聚偏二氟乙烯(polyvinylidene difluoride,PVDF)膜上.这些多肽片段从PVDF膜上切下后可以直接被用于分析氨基酸序列.该方法能广泛适用于分析一般蛋白质和N端被修饰蛋白质的氨基酸序列.     

Purification and characterization of hen oviduct microsomal signal peptidase

Hen oviduct signal peptidase requires only two proteins for proteolysis of fully synthesized secretory precursor proteins in vitro: one with a molecular mass of 19 kilodaltons (kDa) and one which is a glycoprotein whose mass varies from 22 to 24 kDa depending on the extent of glycosylation. Purified signal peptidase has been analyzed both as part of an active catalytic unit and after electroelution of the individual proteins out of a preparative polyacrylamide gel. The multiple forms of the glycoprotein component of signal peptidase bind to concanavalin A and are shown to be derived from the same polypeptide backbone. Removal of their oligosaccharides by digestion with N-glycanase converts these proteins to a single 19.5-kDa polypeptide. The glycoproteins all exhibit very similar profiles following individual digestion with trypsin and separation of the resulting peptides by reverse-phase high-performance liquid chromatography. In addition, sequence analysis of selected peptides from corresponding regions in chromatograms representing each form of the glycoprotein reveals the same amino acid sequences. The 19-kDa signal peptidase protein does not bind concanavalin A, has a distinct tryptic peptide map from that of the glycoprotein, and appears to share no amino acid sequences in common with the glycoprotein. Its copurification on a concanavalin A-Sepharose column indicates that it must interact directly with the glycoprotein subunit.     

A Comparative Structural Analysis of the Flagellin Monomers of Caulobacter crescentus Indicates that These Proteins Are Encoded by Two Genes

The flagellum of Caulobacter crescentus is composed of two flagellin polypeptide monomers which are distinguished by molecular weight and are closely related by biochemical and immunological criteria (C. Lagenaur and N. Agabian, J. Bacteriol. 132:731-733, 1977). The synthesis and assembly of these two flagellin proteins are developmentally regulated, and the periodicity of expression for each is distinct (C. Lagenaur and N. Agabian, J. Bacteriol. 135:1062-1069, 1978; M. A. Osley, M. Sheffery, and A. Newton, Cell 12:393-400, 1977). To understand the genetic and functional relationship between the 25,000- and 27,500-molecular-weight flagellins of C. crescentus CB15, a detailed comparative analysis of their protein structure was made, using a number of techniques, including one- and two-dimensional peptide mapping, a novel procedure of peptide alignment, and amino terminal amino acid sequence analysis. The tryptic peptides generated by each of the flagellins were compared by two-dimensional thin-layer chromatography. This peptide map analysis indicated that approximately 36% of the peptides generated from these two proteins had similar migration properties. Together with biochemical and immunological criteria, the two-dimensional peptide map suggested some structural relatedness between the monomers. However, a comparison of peptide fragments generated during partial protease digestion of each protein by a method of one-dimensional mapping indicated that the two proteins are structurally unique. A peptide alignment technique was developed to directly compare the primary structure of these proteins. In the peptide alignment procedure the amino terminus of each protein is radioactively labeled. After partial enzymatic digestion, the peptides are fractionated by polyacrylamide gel electrophoresis: those labeled at the amino terminus are then resolved by subsequent autoradiography. Each digest contains a family of amino-terminal-labeled fragments, the sizes of which reflect the sequential alignment of cleavage sites in the protein. A comparison of the alignment of specific cleavage sites of the two flagellins by this technique further established that each flagellin is structurally unique, particularly in the carboxyl terminal region. Finally, comparison of the amino terminal amino acid sequences indicated that the amino terminal region of both flagellins is highly conserved, but that the two polypeptides are clearly not identical. These findings strongly indicate that the two flagellins are encoded by distinct genetic loci and are not the product of novel processing of a single larger precursor.     

Depletion of hemoglobin and carbonic anhydrase from erythrocyte cytosolic samples by preparative clear native electrophoresis

Proteomic analysis of red cells is compromised by the presence of high-abundance proteins (hemoglobin and carbonic anhydrase-1), which completely obscure low-abundance species. The depletion method presented here involves performing native gel electrophoresis in a polyacrylamide gel tube using a modified electroelution cell. The electrophoretic run is interrupted intermittently to allow the recovery of at least three different liquid fractions, which can be analyzed by both native PAGE and 2D isoelectric focusing SDS-PAGE, or by shotgun mass spectrometry analysis after trypsin in-solution protein digestion. This low-cost, reproducible technique can be used to process large amounts of sample, and it increases the likelihood of detecting low-abundance proteins, thereby resulting in greater proteome coverage. The separation procedure takes approximately 6-7 h.     

The role of chloroplast-membrane-protein synthesis in the circadian clock. Purification and partial characterization of a polypeptide which is suggested to be involved in the clock.

A polypeptide (polypeptide P39), which is presumed to involved in the photosynthetic circadian rhythm in the green alga Acetabularia, was purified from the EDTA-insoluble chloroplast membrane fraction by means of preparative dodecylsulfate gel electrophoresis and then partially characterized. The purity of the isolated polypeptide P39 was confirmed by a further electrophoresis on an analytical dodecylsulfate gel and further elucidated by amino-terminal analysis which shows that glycine is the only amino-terminal amino acid of the purified polypeptide material. The molecular weight of the polypeptide P39 was found to be about 39,000 on analytical gel electrophoresis and the value was further supported by those obtained from amino acid composition and peptide mapping. The amino acid composition of polypeptide P39 showed that the proportion of intermediate amino acid groups is high while the proportion of hydrophilic amino acid groups is well balanced by that of hydrophobic amino acid groups, a property characteristic of membrane proteins.     

Reduction and fluorescent labeling of cyst(e)ine-containing proteins for subsequent structural analyses

Procedures which allow rapid, quantitative, and selective fluorescent labeling of protein cyst(e)ine residues prior to electrophoresis by reaction with 4-(aminosulfonyl)-7-fluoro-2,1,3-benzoxadiazole (ABD-F) under mild conditions are described. After labeling, the protein(s) of interest is easily monitored throughout electrophoresis and subsequent electroblotting or electroelution procedures. The stoichiometry of labeling and therefore the number of cysteine and/or half-cystine residues can be measured spectrophotometrically or fluorometrically and the derived cyst(e)ine adduct can also be quantitated by amino acid analysis and identified in protein sequencing. N-terminal blockage is not observed under the conditions utilized, nor are any other amino acid side chains modified. The procedures described allow complete, rapid, and facile reduction and alkylation of proteins with simultaneous incorporation of a fluorophore, permitting sensitive detection in subsequent manipulation of the proteins. Quantitative fluorescence prelabeling also allows the generation, purification, and sequencing of peptide fragments containing cyst(e)ine residues for determination of internal sequences and residues involved in disulfide bonds.     

Manual N-terminal microsequencing of proteins electroeluted from polyacrylamide gel slices

A simple and rapid procedure for preparation of proteins for manual microsequencing using sodium dodecyl sulfate gel electrophoresis is described. The procedure involves pre-electrophoretic labeling of the protein amino groups with a coloured Edman reagent, disk electrophoresis for purification or fractionation of the proteins, and reversed electrophoretic transfer of the separated protein from gel slices into a small volume of buffer (100 to 150 microliter) using a discontinuous conductivity gradient to recover the proteins. The pre-electrophoretic labeling facilitates location of the separated proteins in the gel and the monitoring of their complete electroelution. The isolated proteins are separated from excess of salts by acetone precipitation and solvent partitioning in pyridine/water (1:1) and subjected to manual DABITC/PITC degradation.     

Identification of proteins from two-dimensional polyacrylamide gels using a novel acid-labile surfactant

Protein identification by peptide mass mapping usually involves digestion of gel-separated proteins with trypsin, followed by mass measurement of the resulting peptides by matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). Positive identification requires measurement of enough peptide masses to obtain a definitive match with sequence information recorded in protein or DNA sequence databases. However, competitive binding and ionization of residual surfactant introduced during polyacrylamide gel electrophoresis (PAGE) can inhibit solid-phase extraction and MS analysis of tryptic peptides. We have evaluated a novel, acid-labile surfactant (ALS) as an alternative to sodium dodecylsulfate (SDS) for two-dimensional (2-D) PAGE separation and MALDI-MS mapping of proteins. ALS was substituted for SDS at the same concentration in buffers and gels used for 2-D PAGE. Manual and automated procedures for spot cutting and in-gel digestion were used to process Coomassie stained proteins for MS analysis. Results indicate that substituting ALS for SDS during PAGE can significantly increase the number of peptides detected by MALDI-MS, especially for proteins of relatively low abundance. This effect is attributed to decomposition of ALS under acidic conditions during gel staining, destaining, peptide extraction and MS sample preparation. Automated excision and digestion procedures reduce contamination by keratin and other impurities, further enhancing MS identification of gel separated proteins.