Searched for: subject%3A%22Protein%255C%252BBinding%22
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Nieuwenhuizen, W. (author), Voskuilen, M. (author), Hermans, J. (author), Gaubius instituut TNO (author)
The present study was undertaken as a step to delineate further the localization of the calcium-binding sites in fibrinogen and to assess the anticlotting properties of fibrinogen degradation products. To this purpose, fragments Y were prepared by plasmin digestion of human fibrinogen in the presence of added Ca2+, and purified. We found that,...
article 1982
Gaubius Instituut TNO (author), Nieuwenhuizen, W. (author), Vermond, A. (author), Nooijen, W.J. (author), Haverkate, F. (author)
Here the results obtained with human fibrinogen and its degradation products are reported. Our results differ from those obtained in (9) but strongly support model suggested earlier by us for Ca2(+)-binding by rat fibrinogen. Chemicals/CAS: calcium, 7440-70-2; fibrin, 9001-31-4; fibrinogen, 9001-32-5; Calcium, 7440-70-2; Fibrin, 9001-31-4;...
article 1979
Gaubius instituut TNO (author), van Ruijven-Vermeer, I.A.M. (author), Nieuwenhuizen, W. (author), Nooijen, W.J. (author)
The authors studied the binding of Ca to rat fibrinogen and plasmic fibrin(ogen) degradation products by means of equilibrium dialysis with special reference to the protective effect of Ca2+ in the plasmic degradation of fibrinogen. Direct binding studies demonstrate that rat fibrinogen and the plasmic degradation products D(cate) and D-dimer...
article 1978