1. Robey P.G., Bone Matrix Proteoglycans and Glycoproteins, In Principles of Bone Biology, J.P. Bilezikian, L.G. Raisz and G.A. rodan Editors, Academic Press Publishers, Chapter 14, 225-238, 2002.

2. Bonewald L.F., Transforming Growth Factor-β, In Principles of Bone Biology, J.P. Bilezikian, L.G. Raisz and G.A. rodan Editors, Academic Press Publishers, Chapter 49, 903-918, 2002.

3. Harada S. and Rodan G.A., Control of osteoblast function and regulation of bone mass, Nature 423, 349-355, 2003.

4. Baron R. and Rawadi G., Targeting the Wnt/β-catenin Pathway to Regulate Bone Formation in the Adult Skeleton, Endocrinology 148, 2635-43.

5. Boyle W.J., Simonet W.S., Lacey D.L., Osteoclast differentiation and activation, Nature 423, 337 – 342, 2003.

6. Asagiri M. and Takayanagi H., The molecular understanding of osteoclast differentiation, Bone, 40:251-264, 2007.

7. Teitelbaum, S.L. & Ross, F.P., Genetic regulation of osteoclast development and function, Nature Reviews Genetics, 4, 638-649, 2003

8. Bruzzaniti A. and Baron R. Molecular regulation of osteoclast activity. Rev. Endocr. Metab. Disord. 2007, 7:123-39.

9. Destaing O., Saltel F., Geminard J.C., Jurdic P. and Bard F. Podosomes display actin turn-over and dynamic self-organization in osteoclasts expressing actin-GFP. Mol. Biol. Cell, 14, 407-416, 2003.

10. Takayanagi H., Osteoimmunology: shared mechanisms and crosstalk between the immune and bone systems, Nature Reviews Immunology 7, 292 – 304, 2007.

11.  Kronenberg H.M., Developmental regulation of the growth plate, Nature 332-336, 2003.