Betty Kay Wasserman scite author profile

We have determined the near-ultraviolet circular dichroic spectrum (235-315 nm) and the ultraviolet difference absorption spectrum of ribonuclease A (RNase A) and its peptic derivative, des-(121-124)-RNase A (RNase P), which is missing the four C-terminal residues and retains no more than a few per cent of the enzymic activity of RNase A. The circular dichroic spectra of both proteins were resolved into gaussian parameters and the rotational strengths of the resolved bands (due mainly to tyrosines and disulfides) were found to be very similar in the two proteins. Also, the denaturation difference spectrum was almost identical, thus indicating that in each native protein the same number of tyrosyl groups are inaccessible to solvent. The circular dichroic spectrum of RNase P between 195 and 235 nm was also obtained and compared to the known spectrum of RNase A. The gen-

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Collagen-Mediated Platelet Aggregation EFFECTS OF COLLAGEN MODIFICATION INVOLVING THE PROTEIN AND CARBOHYDRATE MOIETIES

Puett¹,

Wasserman²,

Ford³

et al. 1973

J. Clin. Invest.

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A B ST R A CT In an effort to elucidate the nature of the collagen-platelet interaction, the effects of collagen modification on platelet aggregation have been studied. We have shown that purified rat skin (salt) soluble collagen is effective at about 20 nM in mediating platelet aggregation in human platelet-rich plasma. This conce-ntration is somewhat greater than that required of several skin insoluble collagens (ca. 10 nM). Both the al(I) and a2 chains from rat skin soluble collagen produced platelet aggregation, but only at concentrations of about 13 AM and 55 AM, respectively. In contrast, heat-denatured collagen and chains (e.g., 65 AM al(I) and 160 AM a2) failed to induce platelet aggregation and to inhibit platelet aggregation by native collagen.Glycopeptides were prepared from human skin insoluble collagen by extended digestion with bacterial collagenase and trypsin, and were purified by gel filtration into two classes. One class of higher molecular weight contained sialic acid, glucosamine, galactosamine, fucose, mannose, galactose, and glucose, and the other of lower molecular weight consisted primarily of a mixture of galactose and galactosyl-glucose units O-glycosidically linked to hydroxylysine-containing peptides. We found that, after the residual tryptic activity contaminating the higher molecular weight fraction was inhibited, neither of the glycopeptide classes produced nor inhibited native human skin insoluble collagen-mediated platelet aggregation at the highest concentration examined (ca. 1-2 mg glycopeptide per ml of platelet-rich plasma glucose (Hyl-Gal and Hyl-Gal-Glc, respectively), were prepared from human urine and labeled at galactose using galactose oxidase followed by reduction with tritiated borohydride. Binding studies with platelet-rich plasnma showed that, at concentrations greater than 50 nM, Hyl-Gal gives apparent binding to platelets, but there was no evidence of Hyl-Gal-Glc binding to platelets at concentrations up to 250 nM. At concentrations several hundredfold higher than the equivalents present in the minimum concentration of rat skin soluble collagen required for platelet aggregation, neither Hyl-Gal (at 29 iM) nor Hyl-Gal-Glc (at 18 AM) caused platelet aggregation or inhibited platelet aggregation by native collagen. Also, at a concentration of 85 ,M (which represents a concentration about two thousandfold higher than the equivalents in the minimum concentration of soluble collagen required for platelet aggregation) the Gal-Glccontaining 36 residue rat skin soluble collagen al(I)-cyanogen bromide #5 peptide had no platelet aggregating or inhibiting activity.Modification of at least 90% of the rat skin soluble collagen carbohydrate by mild periodate oxidation had no effect on the platelet aggregating activity. Human skin insoluble collagen was reacted with periodate under the same conditions, and this had no demonstrable effect on its ability to induce platelet aggregation. This indicates that the normal carbohydrate side chains of these collagens are not required for t...

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Chain folding in ribonuclease A derivatives lacking five and six carboxyl-terminal residues

Puett¹,

Friebele²,

Wasserman³

1972

Biochemistry

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