alexa 3-D Reconstruction of Tooth Development and Gene Expres
ISSN: 2155-9937

Journal of Molecular Imaging & Dynamics
Open Access

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Research Article

3-D Reconstruction of Tooth Development and Gene Expression Using Optical Projection Tomography

Mohammad Yusuf Beebeejaun*, Paul Sharpe and Sabrena Pacheco

Department of Craniofacial Sciences, Guy’s Hospital, London SE1 9RT, United Kingdom

*Corresponding Author:
Mohammad Yusuf Beebeejaun
Department of Craniofacial Sciences
Guy’s Hospital London SE1 9RT
United Kingdom
E-mail: [email protected]

Received date: November 22, 2011; Accepted date: February 22, 2012; Published date: February 28, 2012

Citation: Beebeejaun MY (2012) 3-D Reconstruction of Tooth Development and Gene Expression Using Optical Projection Tomography. J Mol Imag Dynamic 2:107. doi:10.4172/2155-9937.1000107

Copyright: © 2012 Beebeejaun MY. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.



Tooth morphogenesis is a highly conserved process that occurs under very strict genetic control with the dentition of an organism developing as a result of reciprocal interactions between the oral epithelium and the underlying neural crest derived mesenchymal cells. In order to gain a deeper understanding of the mechanisms that underlie tooth growth and development, the use of optical projection tomography (OPT) as a method for capturing particular gene expression pattern was used and the developing dentition of the mouse were reconstructed using three dimensional (3-D) data reconstruction. This project covered the time window between embryonic days 11.5 and 14.5 in the mouse (Mus musculus) which corresponds to the time frame of early development in the tooth. 3D domains of gene expression were visualized using marker genes, Keratin 5, Sonic Hedgehog (Shh), Pitx2 and Pax9 first by whole mount in situ hybridization and then viewed using special software that allow the generation of 3-D data. This allowed us to reconstruct the developing dentition based on four gene expressions. A complete 3-D reconstruction of the dental epithelium was achieved with K5; Pitx2 allowed us to reconstruct the oral ectoderm exclusively whereas the 3-D analysis of prospective tooth germs was made possible by mapping the expression of Shh in all three axes. Pax9/ Pitx2 double gene expression made it possible to create a 3-D model of both the epithelium and mesenchyme thereby showing the extent to which those two tissues interact. In the OPT models, considerable details such as the shape the epithelium adopts in the developing incisor tooth could be viewed in three dimensions. Even at a minimum resolution, 3-D anatomical details and expression of genes deep into the anatomy of the mouse could be identified and visualised. The OPT technology and the generated models along with all the accompanying technologies provided a powerful approach to the study and analysis of gene expression during early odontogenesis.


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