scholarly journals Isopycnic-centrifugation studies in caesium chloride and in caesium sulphate on dermatan sulphate proteoglycans from bovine sclera

1981 ◽  
Vol 199 (3) ◽  
pp. 581-589 ◽  
Author(s):  
John K. Sheehan ◽  
Ingemar Carlstedt ◽  
Lars Cöster ◽  
Anders Malmström ◽  
Lars-Ȧke Fransson
Keyword(s):  
Molecular Weight ◽  
Buoyant Density ◽  
Broad Band ◽  
Apparent Molecular Weight ◽  
Gel Chromatography ◽  
Analytical Ultracentrifuge ◽  
Dermatan Sulphate ◽  
Caesium Chloride ◽  
Mode 2 ◽  
Isopycnic Centrifugation

1. Two proteodermatan sulphate species from bovine sclera (fractions PG-I and PG-II) separable by gel chromatography were studied by isopycnic centrifugations in CsCl and Cs2SO4 both in an analytical and a preparative mode. 2. In CsCl, fraction PG-I formed a broad band at a density ρ=1.75g/ml whereas fraction PG-II banded sharply at ρ=1.64g/ml. However, in Cs2SO4, fraction PG-II banded at ρ=1.51g/ml and fraction PG-I at ρ=1.40g/ml, a reversal of the relative banding positions of the two species in CsCl. 3. Preparative isopycnic centrifugations in the two caesium salts permitted further subfractionation of fractions PG-I and PG-II. In both CsCl and Cs2SO4 fraction PG-I was split into subfractions that varied greatly in uronate/protein ratios but had very similar uronate composition. In contrast, isopycnic centrifugation of fraction PG-II in Cs2SO4 gave rise to subfractions with similar uronate/protein ratios but markedly different uronate composition (iduronate content, 88–42%). 4. Subfractions of fractions PG-I and PG-II obtained in preparative centrifugations in CsCl or Cs2SO4 were examined in the analytical ultracentrifuge. These subfractions banded at discrete positions in the gradient. Estimations of apparent molecular weight for these subfractions from data from the analytical isopycnic centrifugations gave values that were much higher (around 1×106) than were those obtained previously for their ‘monomeric’ states (fraction PG-I 160000–410000, and fraction PG-II 70000–130000). 5. In CsCl, fraction PG-I may be subfractionated according to the number of side chains in the molecule. Fraction PG-I increased its net solvation (i.e. lowered its buoyant density) to a larger extent than did fraction PG-II in going from CsCl to Cs2SO4 (i.e. from lower to higher water activity). It is proposed that the presence of large amounts of iduronate in fraction PG-II makes these molecules relatively less solvated in Cs2SO4. Thus the uronate composition may be an important factor in determining the banding position of proteodermatan sulphates in density-gradient centrifugations.

scholarly journals The use of equilibrium-density-gradient methods for the preparation and characterization of blood-group-specific glycoproteins

1970 ◽  
Vol 117 (5) ◽  
pp. 879-891 ◽  
Author(s):  
J. M. Creeth ◽  
M. A. Denborough
Keyword(s):  
Molecular Weight ◽  
Density Gradient ◽  
Blood Group ◽  
Buoyant Density ◽  
Gradient Methods ◽  
Apparent Molecular Weight ◽  
Sedimentation Equilibrium ◽  
Equilibrium Density ◽  
Caesium Chloride ◽  
Selective Solvation

1. The method of sedimentation equilibrium in a gradient of caesium chloride has been applied to the preparation of blood-group-specific glycoproteins from human ovarian-cyst fluids: it is shown that virtually complete separation from contaminating protein is easily accomplished in a single step. 2. The glycoproteins isolated in this way have been characterized by analytical density-gradient experiments in both caesium chloride and caesium sulphate and values of the buoyant density, selective solvation and apparent molecular weight have been obtained. 3. In some cases, materials prepared from the same cysts by solvent extraction methods have also been characterized in these terms. 4. The selective solvation values are about 0.1 and 0.5g of water/g of glycoprotein in caesium chloride and caesium sulphate respectively. 5. The apparent molecular-weight values are much lower than the weight-average molecular weights, and it is shown that the origin of the discrepancy is heterogeneity in density of the glycoproteins. 6. Some sources of error in the interpretation of density-gradient schlieren patterns are examined.

scholarly journals Self-association of dermatan sulphate proteoglycans from bovine sclera

1981 ◽  
Vol 197 (2) ◽  
pp. 483-490 ◽  
Author(s):  
L Cöster ◽  
L A Fransson ◽  
J Sheehan ◽  
I A Nieduszynski ◽  
C F Phelps
Keyword(s):  
Molecular Weight ◽  
Light Scattering ◽  
Guanidine Hydrochloride ◽  
Apparent Molecular Weight ◽  
Sedimentation Equilibrium ◽  
Gel Chromatography ◽  
Side Chains ◽  
Dermatan Sulphate ◽  
Molecular Weights ◽  
High Particle

1. Two proteodermatan sulphate fractions (I and II) from bovine sclera were studied by gel chromatography, light-scattering and ultracentrifugation under various conditions. 2. Gel chromatography of proteoglycans in the absence or presence of hyaluronate was performed under associative conditions. No effect on the elution profile was noted. 3. Ultracentrifugation experiments (sedimentation-velocity and sedimentation-equilibrium) with proteoglycan I and II in 6 M-guanidine hydrochloride gave molecular weights (Mw) of 160000-220000 and 70000-100000 respectively. As the protein contents were 45% and 60% respectively, it may be calculated that proteoglycan I contained four to five side chains, whereas proteoglycan II contained one or two. Sedimentation-equilibrium runs performed in 0.15 M-NaCl gave an apparent molecular weight (Mw) of 500000-800000 for proteoglycan I and 90000-110000 for proteoglycan II. 4. In light-scattering experiments both proteoglycans I and II yielded high particle weights in 0.15 M-NaCl (3.1 × 10(6) and 3.4 × 10(6) daltons respectively). In the presence of 6 M-guanidine hydrochloride the molecular weights decreased to 410000 and 130000 respectively. The particle weights in 0.15 M-NaCl were not altered by the addition of hyaluronate or hyaluronate oligosaccharides. 5. The dermatan sulphate side chains of scleral proteoglycans (L-iduronate/D-glucuronate ratio 7:13) gave a particle weight of 100000 daltons in 0.15 M-NaCl. In 1.00 M-KCl/0.02M-EDTA the molecular weight was 24000. Addition of free scleral dermatan sulphate chains to a solution of proteoglycan II promoted further multimerization of the macromolecule.

IgE response in schistosomiasis japonica: characterization of a cercarial allergen in comparison with purified egg allergens

1997 ◽  
Vol 71 (3) ◽  
pp. 221-226 ◽  
Author(s):  
M. Owhashi ◽  
Y. Horii ◽  
A. Ishii
Keyword(s):  
Molecular Weight ◽  
Apparent Molecular Weight ◽  
Cross Reactivity ◽  
Schistosomiasis Japonica ◽  
Gel Chromatography ◽  
Con A ◽  
The Cross ◽  
Ige Response ◽  
The Relationship

AbstractThe relationship between the cercarial allergen and two previously isolated egg allergens (J1, J2) of Schistosoma japonicum was examined especially in terms of the cross-reactivity between them. Semi-purified cercarial allergen (JAC) was obtained from the crude extract of S. japonicum cercariae by gel chromatography on Sephadex G-200. The apparent molecular weight of JAC was estimated approximately as 60–100 kDa. JAC could bind to Con A-Sepharose, indicating its glycoprotein nature. Three groups of BALB/c mice were immunized with JAC, J1 or J2 using A1(OH)3 as adjuvant, and the cross-reactivity of each antiserum was examined by PCA. Anti-JAC, anti-Jl or anti-J2 serum was highly specific to the corresponding antigen. When IgE-ELISA of S. japonicum patient sera was performed using JAC, J1 or J2 as an antigen, the correlation between anti-J1 and anti-J2 (r = 0.78) was high, whereas the correlation between anti-JAC and anti-J1 (r = 0.27) or between anti-JAC and anti-J2 (r = 0.12) was low. These results suggest that most IgE epitopes on cercarial allergen are independent from those on egg allergens in S. japonicum.

scholarly journals A novel low-molecular weight chondroitin sulphate proteoglycan isolated from cartilage

1981 ◽  
Vol 197 (2) ◽  
pp. 355-366 ◽  
Author(s):  
D Heinegård ◽  
M Paulsson ◽  
S Inerot ◽  
C Carlström
Keyword(s):  
Molecular Weight ◽  
Gel Electrophoresis ◽  
Chondroitin Sulphate ◽  
Polyacrylamide Gel Electrophoresis ◽  
Buoyant Density ◽  
Sodium Dodecyl ◽  
Partial Specific Volume ◽  
Gel Chromatography ◽  
Guanidinium Chloride ◽  
Cscl Density Gradient

Proteoglycans were isolated from cartilage by extraction with 4M-guanidinium chloride followed by direct centrifugation in 4M-guanidinium chloride/CsCl at a low starting density, 1.34 g/ml. N-Ethylmaleimide was included in the extraction solvent as a precaution against contamination of proteoglycans with unrelated proteins mediated by disulphide exchange. A novel, discrete, low-buoyant-density proteoglycan (1.40-1.35 g/ml) was demonstrated by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. Its proteoglycan nature was revealed by the shift in the molecular size observed on gel electrophoresis after treatment with chondroitinase ABC. The core protein was monodisperse. The proteoglycan was further purified by gel chromatography with and without addition of hyaluronate. The proteoglycan constitutes less than 2% (by weight) of the total extracted proteoglycans and is not capable of interacting with hyaluronate. The same proteoglycan was purified in larger quantities by sequential associative and dissociative CsCl-density-gradient centrifugation, zonal rate sedimentation in a sucrose gradient and gel chromatography on Sepharose CL-4B. The pure proteoglycan had a molecular weight of 76 300 determined by sedimentation-equilibrium centrifugation and an apparent partial specific volume of 0.59 ml/g. It contained about 25% protein (of dry weight) and had remarkably high contents of leucine and cysteine as compared with other proteoglycans. The proteoglycan contained two to three large chondroitin sulphate chains and some oligosaccharides.

scholarly journals Some Physicochemical Properties of Erysimum Latent Virus

1982 ◽  
Vol 35 (1) ◽  
pp. 5
Author(s):  
Keith H Gough ◽  
Glenn G Lilley ◽  
Dharma D Shukla ◽  
Frank Woods
Keyword(s):  
Molecular Weight ◽  
Buoyant Density ◽  
Latent Virus ◽  
Sedimentation Equilibrium ◽  
Protein Subunit ◽  
Molecular Weights ◽  
Caesium Chloride ◽  
Rna Content ◽  
Velocity Diffusion ◽  
Phosphorus Determination

Sedimentation velocity, diffusion coefficient and sedimentation equilibrium measurements gave a molecular weight of 5 �90 x 106 for the intact Erysimum latent virus. The molecular weight of the empty shell was estimated to be 3�92 X 106 and the protein subunit to be 21 600. The RNA content calculated from the molecular weights of the full and empty particles is 33 %, in agreement with that estimated from the buoyant density in caesium chloride. However, a direct phosphorus determination gave an RNA content of only 28 %.

scholarly journals Kinetic complexity of chloroplastal deoxyribonucleic acid and mitochondrial deoxyribonucleic acid from higher plants

1969 ◽  
Vol 112 (5) ◽  
pp. 777-786 ◽  
Author(s):  
Richard Wells ◽  
Max Birnstiel
Keyword(s):  
Molecular Weight ◽  
Mitochondrial Dna ◽  
Gaussian Distribution ◽  
Deoxyribonucleic Acid ◽  
Nuclear Dna ◽  
Higher Plants ◽  
Buoyant Density ◽  
Cell Fractionation ◽  
Caesium Chloride ◽  
Cellular Dna

1. Chloroplasts and mitochondria were isolated by aqueous and non-aqueous cell-fractionation techniques. In a variety of higher plants the mitochondrial DNA bands in a caesium chloride gradient at 1·706g.cm.−3, whereas chloroplastal DNA has a buoyant density of 1·697g.cm.−3. 2. In total cellular DNA of moderate molecular weight, the chloroplastal DNA is found within the Gaussian distribution of the nuclear DNA and is not resolved as a satellite. 3. Both chloroplastal DNA and mitochondrial DNA from lettuce renature rapidly. 4. The kinetic complexity of mitochondrial DNA is > 108 daltons. 5. Chloroplastal DNA is made up from fast and slow renaturing sequences with kinetic complexities of 3×106 and 1·2×108 daltons respectively. 6. From the discrepancy between analytical and kinetic complexity it is concluded that chloroplastal DNA is extensively reiterated.

A novel form of ectopic human chorionic gonadotrophin β-subunit in the serum of a woman with epidermoid cancer

1985 ◽  
Vol 107 (3) ◽  
pp. 403-408 ◽  
Author(s):  
S. B. Nagelberg ◽  
L. A. Cole ◽  
S. W. Rosen
Keyword(s):  
Molecular Weight ◽  
Unknown Origin ◽  
Apparent Molecular Weight ◽  
Chorionic Gonadotrophin ◽  
Human Chorionic Gonadotrophin ◽  
Size Difference ◽  
Gel Chromatography ◽  
Β Subunit ◽  
Peanut Agglutinin ◽  
Pregnancy Urine

ABSTRACT A novel form of free human chorionic gonadotrophin β-subunit (hCGβ) was found in serum from ElBre, a woman with epidermoid carcinoma of unknown origin. ElBre hCGβ was larger than standard (pregnancy urine) hCGβ when analysed by gel chromatography (apparent molecular weight 54 000 vs 44000). This size difference appeared to be due to a larger carboxyterminal extension (CTE) of ElBre hCGβ since thermolysin cleavage of the CTE from standard hCGβ and Elbre hCGβ yielded core products of the same size. Oligosaccharides, O-linked to serine or threonine, were present in ElBre hCGβ, presumably on its CTE as judged by the complete binding of desialylated ElBre hCGβ to immobilized peanut agglutinin (this lectin is specific for terminal galactose linked β1 → 3 to N-acetylgalactosamine, a disaccharide exposed after desialylation of the O-linked oligosaccharides of standard hCGβ). ElBre hCGβ, however, was incompletely recognized by antisera specific for the CTE of standard hCGβ, especially the carbohydrate-sensitive antiserum R141. The O-linked oligosaccharides of standard hCGβ are heterogeneous in size; 13% are of the largest (hexasaccharide) form. In contrast, over 50% of the O-linked oligosaccharides in hCGβ from the JAr choriocarcinoma cell line are hexasaccharides. Like desialylated ElBre hCGβ, desialylated JAr hCGβ bound completely to peanut agglutinin, but was incompletely recognized by antisera to the hCGβ-CTE. Furthermore, JAr hCGβ was intermediate in size between standard hCGβ and ElBre hCGβ when analysed by gel chromatography (apparent molecular weight 49 000). Thus, we propose that ElBre hCGβ had an even higher proportion of large O-linked oligosaccharides than had JAr hCGβ. Moreover, the N-linked oligosaccharides of ElBre hCGβ differed from standard hCGβ; only 55% of ElBre hCGβ bound to Concanavalin A versus 89% of standard hCGβ. These data further support the concepts of aberrant glycosylation by neoplastic tissues and carbohydrate heterogeneity of hCGβ produced by various tissues. J. Endocr. (1985) 107, 403–408

Antihemophilic Factor: Separation of an Active Fragment Following Dissociation by Salts or Detergents

1972 ◽  
Vol 27 (03) ◽  
pp. 502-515 ◽  
Author(s):  
W. G Owen ◽  
Robert H. Wagner
Keyword(s):  
Molecular Weight ◽  
High Molecular Weight ◽  
Apparent Molecular Weight ◽  
Gel Chromatography ◽  
Factor Activity ◽  
Degree Of Dissociation ◽  
Complete Reversal ◽  
Partial Dissociation ◽  
Triton X ◽  
Antihemophilic Factor

SummaryDissociation of canine antihemophilic factor (factor VIII, molecular weight >2 × 106) by salts and detergents was studied with the use of agarose gel chromatography. The dissociated fragments retained antihemophilic factor activity. Partial dissociation occurred in 1 M or 2 M KCl, 1 M KBr, 0.25% sodium desoxycholate and 0.1% Triton X-100, but essentially no dissociation was observed in 3 M KC1. A high degree of dissociation occurred in 0.25 M CaCl2. Removal of Ca2+ before chromatographic fractionation of the preparation resulted in complete reversal of the dissociation. However, upon separation of an active, dissociated fraction from the very high molecular weight components by gel chromatography in 0.25 M CaCl2, followed by removal of Ca2+ from the fraction, no tendency toward reaggregation was seen. The apparent molecular weight of the dissociated fragment, determined by gel chromatography, is about 25,000. It is proposed that antihemophilic factor activity is associated with a molecule, of relatively low molecular weight, which in plasma or partially purified fractions is bound by electrostatic and hydrophobic bonds to a high molecular weight carrier. The activities of both dissociated and undissociated preparations were neutralized by an antibody to human antihemophilic factor. In contrast to the behavior of undissociated antihemophilic factor, the activity of the dissociated preparation was not affected by incubation with a dilute, highly purified thrombin preparation.

scholarly journals Macromolecular distribution near the limits of density-gradient columns. Some applications to the separation and fractionation of glycoproteins

1977 ◽  
Vol 161 (3) ◽  
pp. 449-463 ◽  
Author(s):  
M J Creeth ◽  
J R Horton
Keyword(s):  
Molecular Weight ◽  
Density Distribution ◽  
Density Gradient ◽  
Specific Volume ◽  
Buoyant Density ◽  
Apparent Molecular Weight ◽  
Partial Specific Volume ◽  
Macromolecular Component

1. Expressions are derived for the distribution at density-gradient equilibrium of macromolecules whose densities are (a) close to the values characterizing the solution limits or (b) outside the span of the gradient. 2. Density-distribution predicted by the expressions agree with those obtained by rigorous methods. 3. The distribution equations are applied to hypothetical mixtures of proteins and glycoproteins in commonly used density-gradient media to simulate separation and fractionation conditions. 4. It is shown that CsBr, although less efficient than CsCl for fractionation, is nevertheless adequate for most purposes; in analytical experiments it may often have advantages over CsCl. Limitations on the use of LiBr are explored. 5. An expression is derived which allows the variance of the partial specific volume of the macromolecular component to be determined from the variance of the buoyant density. It is shown that the relative resolving powers of different salts is expressed by their values of the quantity (formula: see text). 6. The equations are applied to a well-characterized glycoprotein preparation at equilibrium in CsCl and in Cs2SO4:it is shown that the much wider distribution in CsCl than in Cs2SO4 is explicable in terms of the variance in buoyant density and the solvation properties of the salts. 7. Limitations of the expressions arise when dispersity in density is represented by a low apparent molecular weight; realistic simulations can then only be obtained when the component is fully banded.

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