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1.
The hemocyanin of Limulus polyphemus is a 48-subunit aggregate. This 3.3 × 106-dalton oligomer is composed of structurally and functionally heterogeneous subunits. Using polyacrylamide electrophoresis J. Markl, A. Markl, W. Schartau, and B. Linzen (J. Comp. Physiol. Ser. B130,283–292, 1979) observed 12 bands; while using immunoelectrophoresis, M. Hoylaerts, G. Preaux, R. Witters, and R. Lontie (Arch. Int. Physiol. Biochem.87, 417–418, 1979) and J. Lamy, J. Lamy, J. Weill, J. Bonaventura, C. Bonaventura, and M. Brenowitz. (Arch. Biochem. Biophys.196, 324–339, 1979) observed 8 subunits. To proceed with an analysis of subunit roles in assembly it is first necessary to determine the number of distinct subunits. Refinement of the chromatographic separation procedures has led to the isolation of 8 immunologically distinct subunits as well as additional charge isomers which cannot be distinguished immunologically. Alkaline electrophoresis revealed 15 bands and isoelectric focusing up to 17. On the basis of extensive control experiments, including composit acrylamide-agarose immunoelectrophoresis and checks for conformational isomers, aggregation, proteolysis, and other types of degradation, we conclude that the electrophoretic heterogeneity of immunologically identical subunits is not artifactual. We have extended the nomenclature used by Lamy et al. (1979) to include the electrophoretic heterogeneity by using primes (′) to denote electrophoretically distinguishable subunits which are immunologically identical. A number of patterns have become apparent by correlating the results obtained by the different techniques. For example, immunologically pure subunit II, which shows 3 bands on alkaline electrophoresis, is in fact a mixture of electrophoretically distinct subunits II, II′, II″. Except for subunits II, II′, and II″ immunoelectrophoretically identical subunits are typically homogeneous on sodium dodecyl sulfate-gels. However, slight differences in the apparent molecular weight are observed on high-resolution gels between immunologically unrelated subunits. The immunological identity and electrophoretic differences suggest that the charge isomers which are immunologically identical have similar antigenic surfaces. If a charge substitution is not in a critical location, we would expect the electrophoretically distinct but immunologically identical subunits to have identical assembly roles. Comparison of the results for Limulus hemocyanin with the hemocyanin of related species Eurypelma californicum and Androctanus australis, which have 7 and 8 immunologically distinct subunits, respectively, suggests that the calcium-mediated aggregation from 24 to 48 subunits of Limulus does not require more extensive subunit complexity.  相似文献   
2.
A new technique for generating extended pH gradients (5 pH units) in Immobiline gels is reported. The previously described (J. Biochem. Biophys. Methods 7, 1983, 123-142) five-chamber gradient mixer has been replaced by a two-vessel device. A single mixture of the available Immobilines (pK 3.6, 4.6, 6.2, 7.0, 8.5 and 9.3) is made, with relative concentrations adjusted so as to produce the most uniform buffering power throughout the desired pH interval. This mixture is then divided into two portions, which are titrated to the extremes of the required pH span with an acidic titrant (Immobiline pK approximately 1) and a basic species (Immobiline pK 9.95). Highly reproducible pH gradients (pH 4-9) are thus generated, which appear extremely useful for the first dimensioned of 2-dimensional techniques. Our previously reported computer program has been implemented with an optimization algorithm which, given any cocktail of Immobilines, automatically adjusts the relative initial concentrations until the smoothest possible beta power is found. For the first time it is possible to perform IEF under controlled physico-chemical parameters: pH span and linearity, beta power, ionic strength and molarity of the buffering species.  相似文献   
3.
Up to the present time it has been impossible to perform two-dimensional (2-D) separations in very acidic immobilized pH gradients (IPG), due to the lack of suitable buffering acrylamido derivatives to be incorporated into the polyacrylamide matrix. The advent of the pK 3.1 buffer (2-acrylamido glycolic acid; Righetti et al., J. Biochem. Biophys. Methods 16, 1988, 185–192) allowed the formulation of such acidic gradients. We report here separations in IPG pH 2.8–5.0 intervals of polypeptide chains from total lysates of rat intestinal and liver cells and 30S and 50S ribosomal proteins from Halobacterium marismortui. Conditions are given for highly reproducible first and second dimensions gels and for a proper silver staining of 2-D maps with practically no background deposition.  相似文献   
4.
The properties of gels prepared either from acryloyl-morpholine (ACM) or from its mixtures with acrylamide and crosslinked either with bisacrylylpiperazine or with methylenebisacrylamide have been described. ACM-containing gels are compatible with organic solvents. If polymerized in water and dried, they are able to reswell, e.g., in dimethyl sulfoxide or dimethylformamide. If polymerized in presence of dimethylformamide, they form perfectly clear gels, whose mechanical properties are by far superior than those of similar plain polyacrylamide formulations.  相似文献   
5.
After isoelectric focusing followed by electrophoresis at right angles in the same gel slab, it is possible to visualize the titration curve of proteins by zymograms or immunofixation even of an unpurified sample. This information can be very useful for the selection of the proper purification strategy by charge-dependent methods, e.g. ion-exchange chromatography, zone and disc electrophoresis and isotachophoresis. The titration curve also gives information on the stability of the protein as a function of the prevailing pH of the medium, in the pH 3-10 range. A region of instability is found for most proteins in acidic conditions, below pH 4.5, while most proteins are stable in the alkaline pH region, at least up to pH 10. The best method for developing zymograms and immunoprints appears to pH 10. The best method for developing zymograms and immunoprints appears to be the 'sandwich technique', by which a thin agarose slab, cast on an hydrophilic polyester sheet, and impregnated with appropriate reagents, is left in contact with a polyacrylamide gel thin layer used to generate the titration curves.  相似文献   
6.
Basic equations have been derived linking the electrophoretic migration in a stationary pH gradient of simple, singly charged cations or anions and of mono- mono- valent ampholytes with the pKs of their ionizable groups. In the case of diprotic ampholytes, an equation and a curve are described calculating a correction factor to be applied to the mobility measurements, accounting for the influence of the opposite charge species on the mobility curve of the ion being measured. This correction factor is a function of ΔpK and increases exponentially with decreasing values of ΔpK. These theoretical considerations have been experimentally verified by running pH-mobility curves of colored compounds, such as methyl red, neutral red and dexorubicin. The pKs thus measured were in excellent agreement with the pKs obtained independently by spectrophotometric titrations.  相似文献   
7.
Amino acid composition of zein molecular components   总被引:1,自引:0,他引:1  
Zein extracted from maize endosperm has been fractionated into four polypeptide chains, having the following MWs 23 000, 21 000, 13 500 and 9600. By amino acid analysis the two smaller MW chains (representing 30% of total zeins) have been found to be zein-type molecules. These two chains are thought to be responsible for zein granule formation via -S-S- bridges. Zein is also highly heterogeneous in charge, and is resolved into at least 15 components, with pI's in the pH range 5–9. As demonstrated by amino acid analysis, part of this heterogeneity is due to spot mutations in some of the genes responsible for zein synthesis.  相似文献   
8.
Heterogeneity of storage proteins in maize   总被引:1,自引:0,他引:1  
Righetti  P. G.  Gianazza  Elisabetta  Viotti  A.  Soave  C. 《Planta》1977,136(2):115-123
The extensive charge heterogeneity of maize (Zea mays L.) zeins observed in isoelectric focusing (IEF) (about 15 bands with pI's in the pH range 6–9) has been found to be independent of extraction procedures or of endosperm development. Zeins do not stain for glycoproteins and exhibit only one lipoprotein component, with pI 3, representing 3–5% of the total protein.Zeins are very resistant to in vitro deamidation, at both acidic and alkaline pH, at high temperatures, and for rather prolonged times. On the basis of the zein content in acidic and basic amino acids, and of the respective pI's exhibited in IEF (mostly in the pH range 7–8) it has been calculated that at least 90% of the glutamic and aspartic acids (52 residues out of a total of 190) are present as asparagine and glutamine.Amino acid analysis of zein fractions isolated by preparative IEF has demonstrated changes in the composition of 18 amino acid residues. However, since these changes affect only neutral and hydrophobic residues, it is concluded that the observed zein heterogeneity is partly based on in vivo deamidation of glutamine and asparagine and partly to spot mutations in some of the genes responsible for zein synthesis.Abbreviations A absorbance - Bis N,N-methylene bisacrylamide - IEF isoelectric focusing - 2-ME 2-meroaptoethanol - mol wt molecular weight - 62 opaque-2 - PAGE polyacrylamide gel electrophoresis - pI isoelectric point - PAS periodic acid-Schiff stain - SDS sodium dodecyl sulphate - ICA trichloroacetic acid - TEMED N,N,N,N-tetramethyl ethylene diamine - Z1 zein extracted with 55% isopropanol - Z2 zein extracted with 55% isopropanol and 0.6% 2-ME - Z 9.6 zein of mol wt 9600 - Z 13.5 zein of mol wt 13,500 - Z 21 zein of mol wt 21,000 - Z 23 zein of mol wt 23,000  相似文献   
9.
10.
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.  相似文献   
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