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Ultrastructure, morphology and crystal growth of biogenic and synthetic apatites

Citation

Heywood, BR and Sparks, NHC and Shellis, RP and Weiner, S and Mann, S, Ultrastructure, morphology and crystal growth of biogenic and synthetic apatites, Connective Tissue Research, 25, (2) pp. 103-119. ISSN 0300-8207 (1990) [Refereed Article]

Copyright Statement

Copyright 1990 Gordon and Breach Science Publishers S.A. Reprints available directly from the publisher. Photocopying permitted by license only

DOI: doi:10.3109/03008209009006985

Abstract

The morphology, structure and crystal growth of apatite crystals isolated from calcified turkey tendon and synthetic carbonated apatites have been examined using high resolution transmission electron microscopy. The biogenic apatite consisted of small (35 20 5 nm) platelike crystals. Despite their irregular shape and ill-defined edges, individual particles were single domain crystals. Lattice images recorded from isolated turkey tendon crystals indicated that the crystallographic oaxis (0001) of apatite lies in the plane of the pjate and parallel to the length of the crystallites. Lattice images suggested that the top face corresponds to the (1100) face of carbonated apatite. Lattice fringes observed in platelike crystallites viewed from the side corresponded to the projection of the apatite structure viewed along the [1120] direction. Thus, it can be argued that crystal growth is constrained along the [1100] direction, extends laterally along the [1120] direction, and is maximal along the [0001] direction. This latter direction is aligned with the collagen fiber axis. A mean length to width ratio (1.7) was determined by systematically measuring the maximum distances parallel and perpendicular to the c-axis identified from lattice images of the crystals. Similar information was obtained from lattice images of crystals located in collagen fibres. This confirmed that the morphological and structural features of isolated turkey tendon apatite crystals correlate directly with the in vivo crystallochemical characteristics of apatite. Crystals of synthetic carbonated apatite prepared at 37C were also platelike and, although generally much larger, had length to width ratios comparable with the turkey tendon apatite. The synthetic carbonated apatites were noticeably more sensitive to radiolytic damage than the turkey tendon crystals. The crystallographic c-axis of the inorganic particles was aligned parallel with the long, physical axis of the plate and the top face was identified as (1100). Similar data were also obtained from non-carbonated synthetic apatite samples. The results of the present study offer critical information about the crystal growth of individual carbonated apatite crystals in calified turkey tendon and its relationship to the morphology of the crystallites. As similar growth characteristics are expressed in synthetic analogues, the data bring into question the putative regulatory role of the collagen-based matrix upon the nucleation and growth of biogenic apatite. It is suggested that the crystallographic co-alignment of the crystals and collagen fibers may be indicative of interactions between the organic matrix and the nascent crystal lattice during nucleation while the later growth of the crystals is regulated only by the imposition of spatial constraints rather than through specific matrix-crystal interactions.

Item Details

Item Type:Refereed Article
Keywords:apatite, biomineralization, collagen, high resolution electron microscopy, turkey tendon
Research Division:Chemical Sciences
Research Group:Physical Chemistry (incl. Structural)
Research Field:Structural Chemistry and Spectroscopy
Objective Division:Expanding Knowledge
Objective Group:Expanding Knowledge
Objective Field:Expanding Knowledge in the Chemical Sciences
Author:Heywood, BR (Professor Brigid Heywood)
ID Code:104357
Year Published:1990
Web of Science® Times Cited:32
Deposited By:Research Division
Deposited On:2015-11-10
Last Modified:2015-12-18
Downloads:0

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