1979
DOI: 10.1021/bi00587a005
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Structural basis for the anticoagulant activity of heparin. 2. Relationship of anticoagulant activity to the thermodynamics and fluorescence fading kinetics of acridine orange-heparin complexes

Abstract: Complexing heparin or dermatan sulfate with the fluorescent probe acridine orange provides a means of studying electrostatic as well as static and dynamic conformational aspects of these glycosaminoglycans via the thermodynamic and photochemical (fluorescence fading) properties of these complexes. The cooperative binding constants (Kq), fluorescence fading rate parameters (r''), and anticoagulant activities of heparins fractionated according to anionic density all showed qualitatively the same dependence upon … Show more

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Cited by 15 publications
(6 citation statements)
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“…Except the VLA heparins, which are inactive with AT, the activities of the heparins with both inhibitors show the same correlation with charge density. That such a charge-density effect is seen at all with the HA heparins is strong, direct evidence that, as predicted earlier from indirect evidence (10), the correlation with Z2 arises from a domain that is independent of the AT-binding domain on the heparin. Moreover, the slope of the lines, which is a measure of the change in activity with Z2, is insensitive to the nature of the inhibitor and is not changed by AT-affinity fractionation.…”
Section: Resultssupporting
confidence: 73%
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“…Except the VLA heparins, which are inactive with AT, the activities of the heparins with both inhibitors show the same correlation with charge density. That such a charge-density effect is seen at all with the HA heparins is strong, direct evidence that, as predicted earlier from indirect evidence (10), the correlation with Z2 arises from a domain that is independent of the AT-binding domain on the heparin. Moreover, the slope of the lines, which is a measure of the change in activity with Z2, is insensitive to the nature of the inhibitor and is not changed by AT-affinity fractionation.…”
Section: Resultssupporting
confidence: 73%
“…Hog mucosal heparin (176 U. S. Pharmacopeia, units per milligram; Diosynth BV, Holland) was fractionated by two-phase partition (10,12) to obtain heparin fractions, previously characterized in detail (9)(10)(11)(12), that vary systematically in linear charge density, Z. The highly purified and more homogeneous fractions have similar molecular-weight distributions, with an average molecular weight of 15,000, and contain no detectable dermatan sulfate or other contaminating glycosaminoglycans.…”
Section: Methodsmentioning
confidence: 99%
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“…Clustering models have been proposed previously to explain cationic dye quenching phenomena which predominately involve dye-dye contacts with each dye on a separate heparin chain. [43][44][45][46] While the structural features of the CPPs responsible for formation of stable heparin clusters have not been investigated in detail from this study, it appears to stem from the ability of the peptide to form nonionic, likely hydrophobic interactions with other heparinbound peptides. The presence of non-ionic contributions to the peptide-heparin clusters was confirmed by the sensitivity of heparin affinity chromatography to the nature of the eluting salt solution with changes in elution profile and a differing order of elution observed with NaCl and GdnHCl (see Figure 1).…”
Section: Discussionmentioning
confidence: 99%
“…Glycosaminoglycans are highly charged, and the very high density of charge at this surface will lead to a strong ordering of water molecules at the surface of the bladder such as is seen in physicochemical studies of the binding properties of glycosaminoglycan chains [18,31,32]. This physical phenomenon of water ordering, which is thermodynamically equivalent to exclusion of solutes, provides a plausible mechanism for bladder defenses.…”
Section: A Model For the Role Of Proteoglycans And Glycosaminoglycansmentioning
confidence: 99%