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Scanning electron microscopy and molecular modeling of inhibition of calcium oxalate monohydrate crystal growth by citrate and phosphocitrate (1995)

Wierzbicki, A. ; Sikes, C. S. ; Sallis, J. D. ; [et al.]

Springer

Calcified tissue international 56 (1995), S. 297-304

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ISSN: 1432-0827

Keywords: Calcium oxalate monohydrate ; Inhibition ; Citrate and phosphocitrate binding ; X-ray structure of phosphocitrate ; Molecular modeling

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract Binding of citrate and phosphocitrate to calcium oxalate monohydrate crystals has been studied using scanning electron microscopy (SEM) and molecular modeling. Phosphocitrate structure has been resolved using low temperature X-ray analysis and ab initio computational methods. The (-1 0 1) crystal surface of calcium oxalate monohydrate is involved in binding of citrate and phosphocitrate, as shown by SEM and molecular modeling. Citrate and phosphocitrate conformations and binding energies to (-1 0 1) faces have been obtained and compared to binding to another set of calcium-rich planes (0 1 0). Difference in inhibitory properties of these compounds has been attributed to better coordination of functional groups of phosphocitrate with calcium ions in (-1 0 1). Relevance of this study to design of new calcium oxalate monohydrate inhibitors is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00318050

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Atomic force microscopy and molecular modeling of protein and peptide binding to calcite (1994)

Wierzbicki, A. ; Sikes, C. S. ; Madura, J. D. ; [et al.]

Springer

Calcified tissue international 54 (1994), S. 133-141

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ISSN: 1432-0827

Keywords: Calcite ; Protein binding ; Atomic force microscopy ; Molecular modeling

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract Oyster shell protein and polyaspartate bound to calcite have been visualized at the atomic and molecular levels by atomic force microscopy. The identities of potential binding sites have been suggested from atomic force microscopy (AFM) images and have been evaluated by molecular modeling. Energies and conformations of binding to (110) and $$(1\bar 10)$$ prism faces, (001) basal calcium planes, and (104) cleavage planes are considered. The interaction with the basal plane is strongest and is essentially irreversible. Binding to $$(1\bar 10)$$ prism surfaces is also energetically favored and selective for orientations parallel or perpendicular to the c-axis. Binding to (110) faces is significantly weaker and orientation nonspecific. If carboxyl groups of the protein or peptide replace select carbonate ions of the $$(1\bar 10)$$ face, the binding energy increases significantly, favoring binding in the parallel direction. Binding to (104) cleavage surfaces is weak and probably reversible. Specific alignment of oyster shell protein molecules on calcite surfaces is shown by AFM, and the relevance to the binding model is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00296064

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