Nanoscale imaging of mineral crystals inside biological composite materials using X-ray diffraction microscopy.

Huaidong Jiang Damien Ramunno-Johnson Changyong Song Bagrat Amirbekian Yoshiki Kohmura Yoshinori Nishino Yukio Takahashi Tetsuya Ishikawa Jianwei Miao

Phys Rev Lett

Department of Physics and Astronomy, University of California-Los Angeles, CA 90095, USA.

Published: January 2008

Applied x-ray diffraction microscopy for the first time to visualize mineral crystals in the collagen matrix of fish bone at a nanometer scale.
Identified mineral crystals at various mineralization stages, leading to the development of a dynamic model for their growth in collagen.
Results enhance our understanding of bone structure and highlight the potential of x-ray diffraction microscopy in biological material research.

We for the first time applied x-ray diffraction microscopy to the imaging of mineral crystals inside biological composite materials--intramuscular fish bone--at the nanometer scale resolution. We identified mineral crystals in collagen fibrils at different stages of mineralization. Based on the experimental results and biomineralization analyses, we suggested a dynamic model to account for the nucleation and growth of mineral crystals in the collagen matrix. The results obtained from this study not only further our understanding of the complex structure of bone, but also demonstrate that x-ray diffraction microscopy will become an important tool to study biological materials.

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http://dx.doi.org/10.1103/PhysRevLett.100.038103	DOI Listing

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