J. Mathieson scite author profile

J. Mathieson

5Publications

116Citation Statements Received

70Citation Statements Given

How they've been cited

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107

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Affiliations

University of British Columbia, Victoria Hospital, Western University

Publications

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The exclusion of human serum albumin by human dermal collagenous fibres and within human dermis.

Bert¹,

Mathieson²,

Pearce³

1982

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Preparations of dermal collagenous fibres and slices of human dermis have been equilibrated with 125I-labelled monomeric human serum albumin. The space inaccessible to the albumin in the fibres and in the dermis was determined by subtraction of the accessible space, calculated from the radioactivity of the specimen, from its total fluid. For a fibre preparation examined in detail, the fluid exclusion was independent of the concentration of either albumin or collagen. Binding of albumin to the fibres was not demonstrable. Three fibre preparations excluded albumin from 3.75 +/- 0.96, 3.55 +/- 0.67, and 2.05 +/- 0.39 g of fluid/g of collagen (+/-S.D.). Slices from three specimens of dermis excluded albumin from 1.45 +/- 0.08 g of fluid/g of insoluble solids or 1.57 +/- 0.11 g of fluid/g of collagen (+/-S.D.). Thus the exclusion of albumin by dermis was much less than expected from its content of collagenous fibres. On the basis of these data and the published composition of dermis, the concentration of albumin in the accessible interstitial space was estimated to be close to that in the plasma.

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Concentration of plasma albumin in its accessible space in postmortem human dermis

Bert

Pearce

Mathieson

1986

Microvascular Research

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Effect of age on the abundance and fragmentation of link protein of the human intervertebral disc

Pearce

Mathieson

Mort

et al. 1989

Journal Orthopaedic Research

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The link proteins of the human intervertebral disc were studied in tissue extracts by sodium dodecyl sulfate/polyacrylamide gel electrophoresis (SDS/PAGE), followed by immunoblotting, using a specific monoclonal antibody. Three link proteins were detected, corresponding in electrophoretic mobility to those present in articular cartilage. As with articular cartilage, the largest link protein predominates in the young, whereas in the adult the smallest link protein is equally abundant and internal fragmentation of the link proteins occurs. Only in the newborn is the quantity of extractable link protein comparable to that from articular cartilage. In the adult, the disc contains much less link protein than is present in autologous articular cartilage. Neither the amount nor heterogeneity of the link protein differs among different levels within the lumbar spine, although the proportions of the three proteins can differ between the anulus fibrosus and nucleus pulposus. The anulus always contained more extractable link protein relative to tissue wet weight than the nucleus, and the nuclear link protein, at least in adolescents, contained a greater proportion of the smallest link protein. Such changes in the quantity and structure of the disc link proteins may affect the properties of the proteoglycan aggregates and, thus, could influence disc function.

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Characterization of collagenous meshworks by volume exclusion of dextrans

Bert¹,

Pearce²,

Mathieson³

et al. 1980

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The volumes from which 3H-labelled dextrans are excluded by dermal collagenous fibres were calculated by dilution of dextran probes. Five dextrans, of average Stokes' radii 1.72, 2.53, 3.92, 4.54 and 14.24nm, were investigated at concentrations between 0.1 and 3% (w/w). The excluded volume was dependent on dextran concentration only for the two smaller probes. The largest dextran was shown not to bind to the fibres. A plot of the square root of excluded volume against Stokes' radius was linear for the four smallest dextrans, corresponding to the predictions of Ogston's [(1958) Trans. Faraday Soc. 54, 1754--1757] rod-and-sphere model of fibrous exclusion, and suggesting that dextrans of Stokes' radius between 1.72 and 4.54 nm were excluded by a cylindrical solid fibre of radius 2.90 +/- 0.72 nm. Larger molecules were excluded by a structure of much greater size, since the volume exclusion for the largest dextran was only slightly greater than that of the dextran less than one-third its radius. The excluded volume of 3H2O fell slightly below the line describing the dextran data, indicating that water had access to most of the volume not occupied by the collagenous fibres.

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Quantitative Isolation of Purified Acidic Glycosaminoglycans From Rat Skin

Pearce¹,

Mathieson²

1967

Can. J. Biochem.

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A simple method is proposed for the quantitative isolation of purified glycosaminoglycans from 1- to 3-g samples of rat skin. The cetylpyridinium complex of the polysaccharide is isolated from a clarified papain digest of fresh skin. After recovery of the glycosaminoglycan from the complex, residual protein is removed by treatment, in sequence, with sodium hydroxide, phenol, and trichloroacetic acid. The product contains only small amounts of non-hexosamine nitrogen.The optimal conditions for each step of the procedure were developed by systematic experimentation. The apparent loss of carbazole–borosulfuric chromogen in the formation of cetylpyridinium chloride complex (CPC) seems unlikely to be due to glycosaminoglycan; no other significant losses occurred. The recovery of added glycosaminoglycans was close to theory. The method gave results agreeing well with those for standard published procedures. Trial applications revealed the method to be barely precise enough to distinguish between animals.

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J. Mathieson

The exclusion of human serum albumin by human dermal collagenous fibres and within human dermis.

Concentration of plasma albumin in its accessible space in postmortem human dermis

Effect of age on the abundance and fragmentation of link protein of the human intervertebral disc

Characterization of collagenous meshworks by volume exclusion of dextrans

Quantitative Isolation of Purified Acidic Glycosaminoglycans From Rat Skin

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