Use of cationic detergents for polyacrylamide gel electrophoresis in multiphasic buffer systems

An improved system for polyacrylamide gel electrophoresis in the presence of cationic detergents, cetyltrimethylammonium bromide and cetylpyridinium chloride, respectively, is described. An acidic discontinuous buffer system generated according to the theory of multiphasic zone electrophoresis developed by T. M. Jovin (1973, Biochemistry 12, 871-904) was used. It was optimized with respect to the operational conditions and to the desirable range of relative mobility values for the proteins that have molecular weights from 16,500 to 90,300. Also presented is a procedure for the elimination of interference from cationic detergents frequently encountered during staining of gels. The electrophoretic system was suitable for fractionating a wide variety of proteins. The technique can also be used to provide an alternative estimate of molecular weight. To fully account for accurate estimations, the Ferguson relationship between mobility and gel concentration and the relation of molecular weight to mobility at a single gel concentration were both considered. Examples reported in this paper include the separation and/or molecular weight determination of several common proteins, histones, and microfibrillar and myofibrillar proteins. The results suggest that electrophoresis in the presence of cationic detergents offers the same degree of reliability in analysis of most proteins as is provided by the anionic detergent sodium dodecyl sulfate electrophoresis.     

Examination of the Protein Composition of the Cell Envelope of Escherichia coli by Polyacrylamide Gel Electrophoresis

An envelope preparation containing the cell wall and cytoplasmic membrane of Escherichia coli was obtained by breaking the cells with a French pressure cell and sedimentating the envelope fraction by ultracentrifugation. This fraction was prepared for polyacrylamide gel electrophoresis by dissolving the protein in an acidified N,N'-dimethylformamide, removing lipids by gel filtration in the same organic solvent and removing the solvent by dialysis against aqueous urea solutions. More than 80% of the total protein of the envelope fraction was recovered in soluble form. Electrophoresis on sodium dodecyl sulfate-containing gels yielded from 20 to 30 well-resolved bands of protein. One major protein band was observed on the gels. This protein had a molecular weight of 44,000 and accounted for as much as 40% of the total protein of the envelope fraction. A double-labeling technique was used to examine the protein composition of the envelope fraction from cells grown under different sets of conditions which result in large changes in the levels of membrane-bound oxidative enzymes. These changes in growth conditions resulted in only minor alterations in the protein profiles observed on the gels, suggesting that this organism is able to adapt to changes in growth environment with only minor modifications of the major proteins of the cell envelope.     

Poly-N-acryloyl-Tris gels as anticonvection media for electrophoresis and isoelectric focusing

We describe in detail the synthesis of an acrylic monomer, N-acryloyl-tris(hydroxy-methyl)aminomethane (NAT), which was successfully used for the preparation of gels for electrophoresis and isoelectric focusing. The polymerization kinetics and transparency of the poly(NAT) gels crosslinked by N,N'-methylenebisacrylamide (Bis) are also shown. Poly(NAT)-Bis gradient (4-24%) gel resolves proteins according to their size. The exclusion limit of this gel is slightly over 3 X 10(6), which is more than threefold higher than the exclusion limit of the polyacrylamide gradient gel of the same concentration. The gel made of 6% NAT and 3% Bis represents a suitable matrix for isoelectric focusing. These results demonstrate that poly(NAT)-Bis gels could be advantageously used in those applications where the extensive sieving by the polyacrylamide matrix is not desir desirable.     

Analysis of rat serum apolipoproteins by isoelectric focusing. I. Studies on the middle molecular weight subunits.

Analytical isoelectric focusing (IEF) has been applied to the study of the apolipoprotein components of rat serum high density and very low density lipoproteins. The apolipoproteins were separated on 7.5% polyacrylamide gels containing 6.8% urea, with a pH gradient of 4-6. The middle molecular weight range apolipoproteins were identified on IEF gels by the use of apolipoproteins purified by electrophoresis on gels containing sodium dodecyl sulfate (SDS). The A-1 protein focused as 4 to 5 bands from pH 5.46 to 5.82; the A-IV protein and the arginine-rich protein each focused as 4 to 6 bands from pH 5.31 to 5.46. The low molecular weight proteins focused from pH. 4.43 to 4.83 and are the subject of a separate communication. Comparisons of the IEF method with SDS gel electrophoresis, polyacrylamide gel electrophoresis in urea, and Sephadex chromatography are also reported. Additional studies were also carried out that tend to rule out carbamylation or incomplete unfolding of the proteins in the presence of urea as the causes of the observed heterogeneity.     

Solubilization of plant membrane proteins for analysis by two-dimensional gel electrophoresis

A plasma membrane-enriched fraction prepared from barley roots was analyzed by two-dimensional gel electrophoresis. Four methods of sample solubilization were assessed on silver stained gels. When membranes were solubilized with 2% sodium dodecyl sulfate followed by addition of Nonidet P-40, gels had high background staining and few proteins because of incomplete solubilization. Gels of membranes solubilized in urea and Nonidet P-40 had a greater number of proteins but proteins with molecular weights greater than 85,000 were absent and proteins with low molecular weights were diffuse. High molecular weight proteins were present in gels of membranes solubilized in 4% sodium dodecyl sulfate followed by acetone precipitation but background staining and streaking remained a problem. Gels of the best quality were obtained when membrane proteins were extracted with phenol and precipitated with ammonium acetate in methanol; background staining and streaking were diminished and proteins were clearly resolved. This method makes possible the resolution required for meaningful qualitative and quantitative comparisons of protein patterns on two-dimensional gels of plant membrane proteins.     

Effect of alkylation on the physical properties of simian virus 40 T-antigen species.

We analyzed large and small species of T-antigen by immunoprecipitation and two-dimensional gel electrophoresis. The T-antigen species were subjected to electrophoresis either directly or after reduction and alkylation with N-ethylmaleimide. Treatment with N-ethylmaleimide improved the resolution of large-T by two-dimensional gel electrophoresis and was a requirement for the resolution of small-t antigen on two dimensional gels. Large-T did not form a discrete protein spot, but rather formed a streak from approximately pH 6.5 to 6.9 on isoelectric focusing gels. Small-t formed a sharp protein spot at approximately pH 7.2 when subjected to electrophoresis under non-equilibrium conditions which extended the pH gradient to include proteins with basic isoelectric points. Treatment with N-ethylmaleimide decreased the mobility of the T-antigen species during sodium dodecyl sulfate gel electrophoresis. We suggest that the apparent increase in molecular weight was due to the association of N-ethylmaleimide with cysteine-rich regions of these proteins. Viable deletion mutants of simian virus 40 which do not induce the synthesis of small-t but product small-t-related polypeptides were used to localize the cysteine-rich region of small-t to between 0.54 and 0.59 on the genetic map of simian virus 40.     

Efficacy and compatibility with mass spectrometry of methods for elution of proteins from sodium dodecyl sulfate-polyacrylamide gels and polyvinyldifluoride membranes

The resolving power of sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) combined with isoelectric focusing in two-dimensional gel electrophoresis has made it one of the most important techniques for resolving complex mixtures, and it is of great importance for proteome mapping projects. As a result of this, methods for postelectrophoretic protein characterization are of great interest as exemplified by in situ protease digestion combined with mass spectrometry (MS), which is the method of choice for identification of proteins. In this study we have developed and compared methods for recovering intact proteins from polyacrylamide gels and electroblotting membranes to define efficient methods compatible with MS. These methods complement in situ digestion protocols and allow determination of the molecular mass of whole proteins separated by SDS-PAGE. Passive elution of proteins from SDS-PAGE gels was efficient only in the presence of SDS, whereas electroelution was achieved using buffers without SDS. Surface-enhanced laser desorption/ionization MS (SELDI-MS) analysis of proteins eluted in the presence of SDS was possible using ion exchange ProteinChip arrays for concentration of sample and removal of SDS. Comparison of different electroblotting methods verified that the different membranes and buffers were equally efficient for transfer of proteins in the range 20-100 kDa. Elution from polyvinyldifluoride membranes was most efficient using either concentrated solutions of trifluoroacetic acid (TFA) or combinations of 8M urea and 1% Triton X-100, 1% Tween 20, or 40% isopropanol. The same result was obtained using nitrocellulose membranes, except that these were incompatible with organic solvent and TFA. Elution by TFA was compatible with matrix-assisted laser desorption/ionization MS (MALDI-MS) but was complicated by a high degree of trifluoroacetylation of the proteins. Alternatively, elution by 8M urea+1% Triton X-100, 1% Tween 20, or 40% isopropanol was compatible with both SELDI-MS and MALDI-MS. Eluted proteins were identified in MS experiments by intact mass determination, by peptide mapping, and by MS/MS analysis.     

Proteome analysis of rat hippocampal neurons by multiple large gel two-dimensional electrophoresis

The goal of the present study was to detect as many protein spots as possible in mammalian cells using two-dimensional gel electrophoresis (2-DE). For proteome analysis, it is of importance to reveal as many proteins as possible. A single standard 2-DE gel (pH 3-10, 18 cm x 20 cm, 13.5% gel) could detect 853 spots from proteins of cultured rat hippocampal neurons when visualized by silver staining. To increase the resolution of the separation and the number of detectable proteins by 2-DE, we utilized seven different narrow pH range immobilized pH gradients in the first dimension. In the second dimension, fourteen long SDS polyacrylamide gels were used: seven 7.5% gels for the separation of high molecular mass proteins (> or = 40 kDa) and seven 13.5% gels for the separation of low molecular mass proteins (< or = 40 kDa). Three hundred and sixty microg of proteins from cultured hippocampal neurons were loaded on to individual gels and visualized by silver staining. All 14 gel images were assembled into a 70 cm x 67 cm cybergel that contained 6677 protein spots, thereby indicating that the utilization of the present strategy led to a 783% increase in the number of detected spots in comparison to the standard procedure. Loading double the amount (720 microg) of proteins on to a 13.5% gel led to a 184% increase in the number of detected spots, thereby indicating that the present strategy has a potential to display more protein spots in the cybergels.     

Acid and base hydrolysis of phosphoproteins bound to immobilon facilitates analysis of phosphoamino acids in gel-fractionated proteins

Immobilon, a membrane of polyvinylidene difluoride to which gel-fractionated proteins can be transferred electrophoretically, was found to be an excellent matrix for the analysis of the phosphoamino acid content of phosphoproteins. Hydrolysis of 32P-labeled proteins bound to Immobilon with 5.7 N HCl resulted in the release of 90% of the 32P in the form of Pi, phosphoamino acids, and phosphopeptides. Two-dimensional electrophoretic analysis of the released phosphoamino acids yielded undistorted patterns. Because direct hydrolysis of proteins transferred to Immobilon eliminated the need for both preparative extraction of proteins from a gel and recovery by precipitation, analysis was rapid and yields of phosphoamino acids were extremely consistent. The yield of phosphoamino acids from proteins bound to Immobilon, unlike that from proteins eluted from gels, was independent of the size of the protein. The detection of 32P-labeled, phosphotyrosine-containing proteins in sodium dodecyl sulfate-polyacrylamide gels has been shown to be substantially improved by incubation of the gel in 1.0 N KOH for 2 h at 55 degrees C. Base hydrolysis of proteins bound to Immobilon proved to be faster and more sensitive than hydrolysis of proteins in gels. Less than 10% of bound protein was lost from Immobilon during the 2-h incubation at 55 degrees C in 1.0 N KOH. The autoradiographic image after alkaline hydrolysis of proteins on Immobilon was sharper than that obtained after hydrolysis of proteins in the gel. In addition, unlike base-treated gels, the dimensions of the Immobilon filter were unaffected by treatment with base.(ABSTRACT TRUNCATED AT 250 WORDS)     

A Monoclonal Antibody That Reacts Immunohistochemically with Amyloid Deposits in the Brain Tissue of Alzheimer Patients Binds to an Epitope Present on Complement Factor 4

The mouse monoclonal antibody SMP has previously been demonstrated to react immunohistochemically with neurofibrillary tangles, argyrophilic plaques, and leptomeningeal vascular amyloid deposits in the brain tissue of individuals dying from pathologically diagnosed Alzheimer's disease. In preliminary studies the antibody was shown, by size exclusion chromatography, to bind to a protein with an apparent molecular mass of 260 kDa present in the CSF and serum of demented individuals. Chromatographic separation of a 40% ammonium sulphate precipitate of CSF and serum yielded immunoreactive fractions that were subjected to 9% sodium dodecyl sulphate-polyacrylamide gel electrophoresis followed by western blotting. Probing the nitrocellulose blot with the antibody revealed that the antibody selectively binds to a protein chain with an apparent molecular mass of 100 kDa. By using a combination of affinity chromatography and sodium dodecyl sulphate-polyacrylamide gel electrophoresis, coupled with western blotting, the serum component with which the antibody reacts has been identified as complement factor 4. In addition, the antibody has been shown to react specifically with an epitope on the alpha-chain of this protein.     

Effect of crosslinking on mitochondrial structure and function

Rat liver mitochondria were treated with ethylacetimidate

1 Abbreviations: SDS, sodium dodecylsulfate; DMS, dimethylsuberimidate; EA, ethylacetimidate; MBI, methylbutyrimidate; TMPD, N, N′, N′-tetramethyl-p-phenylenediamine.

and methylbutyrimidate, monofunctional imidates, and with dimethylsuberimidate, a bifunctional imidate, and the effects on structure and function studied. Mitochondria treated with 5 mM dimethylsuberimidate or greater did not respond osmotically when placed in deionized water. Sodium dodecylsulfate-polyacrylamide gel electrophoresis revealed that at concentrations > 5 mM dimethylsuberimidate nearly all mitochondrial polypeptides failed to enter 6% gels, indicating crosslinking of both membrane and soluble proteins. Extensive amidination by ethylacetimidate and methylbutyrimidate had little effect on ascorbate-tetramethylphenylenediamine oxidase while extensive inhibition resulted from dimethylsuberimidate treatment. The possible involvement of molecular motion in electron transport is discussed.     

Electrophoresis of proteins and nucleic acids on acrylamide-agarose gels lacking covalent crosslinking

The preparation of acrylamide-agarose gels lacking covalent crosslinking with methylenebisacrylamide is described. These hybrid gels melt at 85 degrees C and, consequently, allow quantitative analysis of tritium-labeled protein after electrophoresis. Recovery of tritium-labeled ribonucleic acids extracted from hybrid gels is 20 to 25% greater than from standard acrylamide-methylenebisacrylamide gels. Standard curves of electrophoretic mobilities as a function of molecular weights of dissociated proteins and ribonucleic acids are compared for acrylamide-agarose gels and acrylamide-methylenebisacrylamide gels.     

A rapid assay for assessment of sphingosine kinase inhibitors and substrates

The effect of incorporating carbon nanotubes (CNTs) in the gel matrix on the electrophoretic mobility of proteins based on their molecular weight differences was investigated using sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE). More specifically, a reduction in standard deviation in the molecular weight calibration plots by 55% in the case of multiwalled carbon nanotubes (MWCNTs) and by 34% in the case of single-walled carbon nanotubes (SWCNTs) compared with that of pristine polyacrylamide gels was achieved after incorporating an insignificant amount of functionalized CNTs into the gel matrix. A mechanism based on a more uniform pore size distribution in CNT modified polyacrylamide gel matrix is proposed. Furthermore, the impact of SWCNTs and MWCNTs on the mobility of proteins in different molecular weight regimes at a given acrylamide concentration offers a tunable gel matrix in terms of the selection of molecular weight ranges of proteins. The robustness and excellent reproducibility of the CNT–PAGE protocol are expected to have a significant impact on the molecular weight determination of newly isolated proteins.     

Alteration of rheological properties of human erythrocytes by crosslinking of membrane proteins

The crosslinking of membrane proteins of human erythrocytes by diamide (diazene dicarboxylic acid bis(N,N-dimethylamide) ) was quantified by 4% polyacrylamide gel electrophoresis in 1% sodium dodecyl sulfate. The relation between the crosslinking of membrane proteins and erythrocyte functions (rheological and oxygen transporting) was quantitatively examined. (i) The crosslinking of membrane protein was induced by diamide, without changing the shape and the contents of intracellular organic phosphates (adenylates and 2,3-diphosphoglycerate). The intensity of spectrin 2 in SDS-polyacrylamide gel electrophoresis decreased proportionally to diamide concentration. The percentage decrease in spectrin 2 (using band 3 as an internal standard) was the most appropriate indicator for crosslinking ("% crosslinking'). (ii) The suspension viscosity of erythrocytes increased in proportion to the percentage of crosslinking, in the range of applied shear rates of 3.76-752 s-1. (iii) Erythrocyte deformability (measured by a high-shear rheoscope) was reduced by the crosslinking. The change was detectable even at 5% crosslinking. (iv) Rouleaux formation (measured by a television image analyzer combined with a low-shear rheoscope) was inhibited by the crosslinking. The inhibition was also sensitively detected at more than 5% crosslinking. (v) Hemoglobin in erythrocytes was chemically modified by higher dose of diamide (probably by the binding of diamide with sulfhydryl groups). Also the oxygen affinity of hemoglobin increased and the heme-heme interaction decreased. (vi) The reduction of the crosslinking of membrane proteins by dithiothreitol apparently reversed the intensity of spectrin bands in SDS-polyacrylamide gel electrophoresis and the erythrocyte functions (the suspension viscosity and the deformability), though not completely.     

Ribosomal proteins from rabbit reticulocytes: number and molecular weights of proteins from ribosomal subunits.

The ribosomal proteins from 40 S and 60 S subunits of rabbit reticulocytes were separated by two-dimensional polyacrylamide gel electrophoresis. The protein spots stained with Coomassie brilliant blue were cut out and the proteins were extracted. The material extracted from each spot was mixed with proteins of known molecular weight and then analyzed by electrophoresis in polyacrylamide gels containing sodium dodecyl sulfate. Both the total number and the molecular weights of each of the proteins were determined by these procedures. Thirty-two proteins were identified in the 40 S subunits; their molecular weights ranged from 8000 to 39,000 (average mol. wt = 25,000). Thirty-nine proteins were identified in the 60 S subunit; their molecular weights ranged from 9000 to 58,000 (average mol. wt = 31,000). The sum of the molecular weights of the individual proteins from each subunit is in agreement with previous estimations, derived from physico-chemical measurements of the total protein in mammalian ribosomal subunits. The molecular weight distribution obtained for the isolated proteins was nearly identical to that derived from spectrophotometric analysis of polyacrylamide-sodium dodecyl sulfate gels of the total protein mixtures from each subunit stained with Coomassie brilliant blue. The results are consistent with the hypothesis that reticulocyte ribosomes contain one copy of most of their protein constituents.     

Isolation of the terminal complement complex from target sheep erythrocyte membranes.

(1) Membranes from sheep erythrocytes lysed with antibody and human complement were solubilized in Triton X-100 and subjected to isoelectric focusing in polyacrylamide gels containing 1% Triton X-100. Membrane-bound serum proteins were located in the gels by subsequent immunoelectrophoresis against antisera to human serum proteins. Monospecific antisera against C9 and C5 were used to locate the terminal complement complex, which is not dissociated by Triton X-100. The complex focused between pH 5.8 and pH 6.5 and was separated from the bulk of other membrane-bound serum proteins, which focused at pH ranges below than 6.0. (2) In a second step, proteins electrophoretically eluted from the gel sections containing the terminal complement complex were chromatographed on Sepharose 6B equilibrated with 0.05% Triton X-100. Fused rocket immunoelectrophoresis was used to monitor separations. This step separated the terminal complement complex from the remaining contaminating proteins. The complex eluted in a broad peak corresponding to a molecular weight range of 800000-4000000. (3) The terminal complement complex thus obtained migrated with alpha-mobility and yielded a single precipitation arc in crossed immunoelectrophoresis using polyvalent antisera to human serum proteins. A distinct precipitate was obtained with monospecific anti-C9. The presence of C5 and C6, in complex with one another and with C9 was demonstrable by immuno-double-diffusion. No immunoprecipitate was obtained with antisera to sheep erythrocyte membrane proteins. (4) Dodecyl sulfate gel electrophoresis of the complex revealed seven protein bands of 190000, 160000, 115000, 93000, 85000, 68000 and 60000 daltons. Planimetric quantitation of densitometric scans gave a molar ratio of approx. 0.7:0.3:1:1:1:2:1 for these bands, respectively. All bands stained faintly with periodate-Schiff. Two-dimensional dodecyl sulfate gel electrophoresis showed that the first two bands (190000 and 160000 daltons, probably C5b and C5c) represented proteins possessing more than one peptide chain linked by disulfide bonds. The main subunit for both bands was a protein of approximately 68000 daltons. Band 5 (83000 daltons, probably C8alpha) was split into two peptide chains of approximately 68000 and 15000 daltons. The other components were not affected by dithiothreitol treatment. (5) The dodecyl sulfate gel electrophoretograms obtained were very similar to that described by Kolb and Müller-Eberhard (Kolb, W.P. and Müller-Eberhard, H.J. (1975) J. Exp. Med. 141, 724-735) for the terminal complement complex isolated from inulin-activated serum. However, certain minor but consistent deviations were observed. A preliminary correction of the electrophoretograms is presented.     

Transfer of small DNA fragments from polyacrylamide gels to diazobenzyloxymethyl-paper and detection by hybridization with DNA probes.

A method for transferring small DNA fragments from composite polyacrylamide-agarose gels to diazobenzyloxymethyl (DBM)-paper is described. DNA fragments are separated by electrophoresis in polyacrylamide-agarose gels crosslinked with N,N′-diallyltartardiamide instead of N,N′-methylenebis-acrylamide. The crosslinks are cleaved by treating the gel with periodic acid after electrophoresis and the DNA is denatured with alkali. After neutralization, the single stranded DNA fragments are transferred to DBM-paper and detected by hybridization with labeled DNA probes. The procedure has been used to transfer and visualize unlabeled SV40 DNA fragments in the size range 28 to 1790 base pairs.     

Purification of rabbit and human serum paraoxonase.

Rabbit serum paraoxonase/arylesterase has been purified to homogeneity by Cibacron Blue-agarose chromatography, gel filtration, DEAE-Trisacryl M chromatography, and preparative SDS gel electrophoresis. Renaturation (Copeland et al., 1982) and activity staining of the enzyme resolved by SDS gel electrophoresis allowed for identification and purification of paraoxonase. Two bands of active enzyme were purified by this procedure (35,000 and 38,000). Enzyme electroeluted from the preparative gels was reanalyzed by analytical SDS gel electrophoresis, and two higher molecular weight bands (43,000 and 48,000) were observed in addition to the original bands. This suggested that repeat electrophoresis resulted in an unfolding or other modification and slower migration of some of the purified protein. The lower mobility bands stained weakly for paraoxonase activity in preparative gels. Bands of each molecular weight species were electroblotted onto PVDF membranes and sequenced. The gas-phase sequence analysis showed that both the active bands and apparent molecular weight bands had identical amino-terminal sequences. Amino acid analysis of the four electrophoretic components from PVDF membranes also indicated compositional similarity. The amino-terminal sequences are typical of the leader sequences of secreted proteins. Human serum paraoxonase was purified by a similar procedure, and ten residues of the amino terminus were sequenced by gas-phase procedures. One amino acid difference between the first ten residues of human and rabbit was observed.     

Isolation of yeast ribosomal proteins L3 and L2 for immunological studies

We report on a rapid method for the isolation and purification of the yeast ribosomal proteins L3 and L2 using a simple instrumentation. Preparative dodecyl sulfate polyacrylamide gel electrophoresis was applied to the separation of cytoplasmatic ribosomal proteins of the large subunit from the yeast Saccharomyces cerevisiae. The polypeptides were removed from gel slices by electrophoretic elution. Subsequent analytical electrophoresis showed groups of proteins in all but two fractions. The latter were further analysed by a two-dimensional gel electrophoresis system which disclosed the purity of two polypeptides. They were identified as L3 and L2. Their molecular masses were 51.5 and 44 kDa as estimated from the gels. A possible application to the isolation of other yeast ribosomal proteins is discussed. An antiserum against the polypeptide L3 was raised in a rabbit. Applying an enzyme-linked immunosorbent assay (ELISA) we were able to determine the relative antibody concentration. Its specificity was demonstrated by immunoblotting.     

Utility of dry gel from two-dimensional electrophoresis for peptide mass fingerprinting analysis of silkworm proteins

We compared the use of wet and dry two-dimensional electrophoresis (2-DE) gels for in-gel tryptic digestion and subsequent analysis by mass spectrometry, first using bovine serum albumin (BSA) as a model protein and then using unknown proteins from an extract of the silkworm midgut. The gel was either dried at 80 degrees C or left wet. Upon analysis of BSA, there was little difference in peptide recovery from 2-DE or in mass spectrum between the dry and the wet gels. The midgut extract was resolved into more than 1,100 protein spots by 2-DE, and 40 of these spots were sampled for further analysis. For all of the 40 proteins, the results obtained from dry and wet gels were quite similar in mass spectra and protein identification, although the relative amounts of peptides from tryptic digestion ranged from 45 to 146%. Based on these results, we confirmed the utility of dry electrophoretic gels for proteomics of insect extracts.