W M O Van Beurden-Lamers scite author profile

W M O Van Beurden-Lamers

5Publications

95Citation Statements Received

50Citation Statements Given

How they've been cited

227

How they cite others

133

Affiliations

Utrecht University, Erasmus University Rotterdam, Erasmus MC

Publications

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Isolation and structural analysis of rat gastric mucus glycoprotein suggests a homogeneous protein backbone

Dekker

Beurden-Lamers

Oprins

et al. 1989

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We isolated monomeric gastric mucus glycoprotein from the rat stomach by applying three successive CsCl-density-gradient steps in the continuous presence of guanidinium chloride. The rat gastric mucin was pure as compared with mucin isolated without the chaotropic reagent. In addition, the presence of guanidinium chloride resulted in a better preservation of the protein moiety. The purified mucin was fractionated according to buoyant density and chemically radiolabelled on tyrosine or cysteine residues and digested with specific proteinases. Analysis of mucin fractions of various densities gave identical peptide patterns, suggesting that the fractions contain a common protein backbone. Electron-microscopic images of the individual mucin molecules were recorded using rotary shadowing. They showed large filamentous molecules with a mean length of 208 nm that, after proteolytic digestion, yielded glycopeptides with a mean length of 149 nm. Heterogeneity in buoyant density and electrophoretic mobility is located in this large glycopeptide which remains after proteolytic digestion. Metabolic labelling of the mucin with [35 S]sulphate and [3H]galactose, followed by purification and proteolytic digestion, revealed that this glycopeptide accounts for most of the mass and contains relatively little protein, but probably all the oligosaccharides and sulphate. As this protein part is masked by the oligosaccharides, detailed study by the methods described was not possible. The results indicate that rat gastric mucin is homogeneous in a major part of the protein backbone and that the heterogeneity of the molecule originates most likely from differences in sulphate and/or sugar composition.

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High-affinity binding of oestradiol-17β by cytosols from testis interstitial tissue, pituitary, adrenal, liver and accessory sex glands of the male rat

Beurden-Lamers

Brinkmann

Mulder

et al. 1974

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The specificity of the binding of oestradiol-17β by cytoplasmic fractions of several tissues of the male rat was investigated. 1. Agar-gel electrophoresis, Sephadex chromatography, adsorption by dextran-coated charcoal and sucrose-gradient centrifugation were used to estimate the binding capacity and specificity. The four different methods all gave similar results for the capacity of the specific oestradiol-17β-binding macromolecules in the testis. 2. The presence of a specific saturable binding protein with a sedimentation coefficient of 8S was demonstrated in liver, adrenal, pituitary, prostate, epididymis and testis interstitial tissue. The highest concentration of oestradiol-17β-binding macromolecules was found in testis interstitial tissue (0.12pmol/mg of protein) and in the pituitary (0.075pmol/mg of protein). 3. The oestradiol-17β receptor in the testis cytosol showed the characteristics of a protein with respect to Pronase treatment and temperature sensitivity. In competition experiments with different steroids the receptor showed a high affinity for oestradiol-17β, a moderate affinity for diethylstilboestrol and oestradiol-17α and a low affinity for oestrone, oestriol, testosterone and 5α-dihydrotestosterone (17β-hydroxy-5α-androstan-3-one). 4. The wide distribution of oestradiol-17β receptors in the male rat is in apparent contradiction to the current concept of the specificity of steroid-hormone action. Further research is required to investigate a possible physiological meaning of the presence of specific receptors in the different tissues.

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Sulphation causes heterogeneity of gastric mucins

Beurden-Lamers¹,

Spee-Brand²,

Dekker³

et al. 1989

Biochimica et Biophysica Acta (BBA) - General Subjects

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Biosynthesis of Gastric Mucus Glycoprotein of the Rat

Dekker¹,

Beurden-Lamers²,

Strous³

1989

Journal of Biological Chemistry

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Testicular Estradiol Receptors in the Rat

Mulder

Beurden-Lamers

Boer

et al. 1974

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