Report of the Dahlem Workshop on Biological Mineralization and Demineralization Berlin 1981, October 18-23
First Statement of Responsibility
edited by G.H. Nancollas.
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Berlin, Heidelberg
Name of Publisher, Distributor, etc.
Springer Berlin Heidelberg
Date of Publication, Distribution, etc.
1982
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
(VIII, 415 pages)
SERIES
Series Title
Life sciences research report, 23.
CONTENTS NOTE
Text of Note
The Solubility Concept --; Nucleation --; The Mechanisms of Crystal Growth and Dissolution --; Phase Transformation During Precipitation of Calcium Salts --; Structures of Biological Minerals --; Structural Properties of Cells Related to Tissue Mineralization --; Structure of the Organic Matrix: Collagen Structure (Chemical) --; Components of the Organic Matrix: Proteoglycans --; Three Systems of Biomineralization in Plants with Comments on the Associated Organic Matrix --; Structure of the Organic Matrix in Mollusc Shells and Avian Eggshells --; Mechanisms of Normal Mineralization in Bone and Cartilage --; Mechanisms of Normal Biological Mineralization of Calcium Carbonates --; Abnormal Mineralization --; Pathologic Mineralization, Nucleation, Growth, and Retention --; Mechanisms and Regulation of Normal and Pathologic Demineralization --; Mechanism of Dental Caries --; Structure, Properties, and Function of Mineralized Tissue Components Group Report --; Mechanisms of Mineralization (Normal) Group Report --; Mechanisms of Pathological Mineralization Group Report --; Mechanisms of Normal and Pathological Demineralization Group Report --; List of Participants --; Author Index.
SUMMARY OR ABSTRACT
Text of Note
Normal and pathological mineralization in vertebrates but also with the interesting problems involved in the formation of in tracellular deposits of calcium oxalate in plants. Here cal cium carbonate and silica may also be involved in the mineral ization processes. Calcium carbonate is an important component in the formation of mollusc and avian shells. The observation that both calcite and aragonite may be formed in biogenic cal cium carbonate raises important questions as to what factors control the formation of the final mineral phase. There is little doubt that thermodynamically less stable phases may be kinetically stabilized for long periods of time by other mole cules present in vivo. In normal mineralization, calcium salts may initially be deposited both within the cells and extracel lularly. In the latter case, the role of matrix vesicles and the ways in which the matrix components might control mineral ization were especially emphasized. There is clearly a need for more structural and functional information involving cells, matrix components, and their associated crystals. The develop ment of further techniques involving mutants, chromofluors, and fixatives for preservation of tissue and the ions present in vivo was recommended. In dealing with abnormal and pathological mineralization, the Workshop concentrated on urolithiasis, gout and pseudo-gout, and the formation of dental caries. Discussions based on the influence of media of low pH on mineral surfaces highlighted some of the factors of importance in controlling crystal dis solution.