ISSN:
1432-0878
Keywords:
Key words: Electron-spectroscopic imaging
;
Electron-spectroscopic diffraction
;
Dentine
;
Biomineralization
;
Crystal nuclei
;
Incremental lines
;
Noncollagenous proteins
;
Rat (Wistar
;
Sprague Dawley)
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Medicine
Notes:
Abstract. Primary crystal formations in all hard tissues are, according to our investigations, Ca-phosphate chains composed of nanometer sized particles (dots) which develop along the matrix macromolecules. In circumpulpal dentine the centre–to–centre distances between the dots inside the chains reflect the distances between the crystal nucleating sites (”active sites”) along the collagen matrix macromolecule. The centre–to–centre distances at the surface of the mineralised collagen fibrils probably reflect the distances between nucleating sites of noncollagenous proteins attached to collagen. These needle-like chains of dots coalesce in lateral directions to form ribbon-like crystallites. The morphological results are supported by correlated small area diffraction studies in the same regions of dentine. We have found that the first appearing Bragg-reflection has a lattice spacing value of 0.388 nm, which corresponds to the (111) apatite value. For the earliest crystal formations the intensity of the (002) reflection is higher than that of the (300)-reflection. A maximum of the net-signal-intensity ratio of the (002) to (300) Bragg-reflection appears at the mineralisation front. This peak repeats with decreasing height 3 to 5 times with a distance range of about 8–16 μm through the whole dentine zone, which corresponds to the distances of the incremental lines, called ”von Ebner lines”.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/s004410050805
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