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Shape and structure controlling of calcium oxalate crystals by a combination of additives in the process of biomineralization.


ABSTRACT: The origin of complex hierarchical superstructures of biomaterials and their unique self-assembly mechanisms of formation are important in biological systems and have attracted considerable attention. In the present study, we investigated the morphological changes of calcium oxalate (CaO x ) crystals induced by additives including chiral aspartic acid, sodium citrate, Mg2+, casein and combinations of these molecules. The morphology and structure of CaO x were identified with the use of various techniques. The morphogenesis of CaO x crystals were significantly affected by chiral aspartic acid, sodium citrate or Mg2+. However, they only formed calcium oxalate monohydrate (COM). It was observed that the chiral aspartic acid, sodium citrate and casein adhered to the surface of the crystals. The adherence of Mg2+ to crystals was not evident. Casein significantly affected the formation of COM and calcium oxalate dihydrate (COD). The ratio of different CaO x crystal forms is associated with the casein concentration. In combination with Mg2+ or citrate ions, casein showed improved formation of COD. The present study mimics biomineralization with a simple chemical approach and provides insight into the complicated system of CaO x biomineralization as well as facilitates the understanding of urinary stone treatment.

SUBMITTER: Liu N 

PROVIDER: S-EPMC9078945 | biostudies-literature | 2018 Mar

REPOSITORIES: biostudies-literature

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Shape and structure controlling of calcium oxalate crystals by a combination of additives in the process of biomineralization.

Liu Nian N   Xie Hao H   Ping Hang H   Wang Lin L   Liu Zewen Z   Tao Fei F   Guo Junhui J   Su Bao-Lian BL  

RSC advances 20180320 20


The origin of complex hierarchical superstructures of biomaterials and their unique self-assembly mechanisms of formation are important in biological systems and have attracted considerable attention. In the present study, we investigated the morphological changes of calcium oxalate (CaO <sub><i>x</i></sub> ) crystals induced by additives including chiral aspartic acid, sodium citrate, Mg<sup>2+</sup>, casein and combinations of these molecules. The morphology and structure of CaO <sub><i>x</i><  ...[more]

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