The branching programme of mouse lung development (original) (raw)

References

  1. Weibel, E. R. The Pathway for Oxygen (Harvard Univ. Press, Cambridge, Massachusetts, 1984)
    Google Scholar
  2. West, G. B., Brown, J. H. & Enquist, B. J. A general model for the origin of allometric scaling laws in biology. Science 276, 122–126 (1997)
    Article CAS Google Scholar
  3. Bejan, A. Shape and Structure, From Engineering to Nature (Cambridge Univ. Press, Cambridge, 2000)
    MATH Google Scholar
  4. Mauroy, B., Filoche, M., Weibel, E. R. & Sapoval, B. An optimal bronchial tree may be dangerous. Nature 427, 633–636 (2004)
    Article ADS CAS Google Scholar
  5. Aeby, C. Der Bronchialbaum der Säugethiere und des Menschen, nebst Bemerkungen über den Bronchialbaum der Vögel und Reptilien (Engelmann, Leipzig, 1880)
    Google Scholar
  6. Boyden, E. A. Segmental Anatomy of the Lungs; a Study of the Patterns of the Segmental Bronchi and Related Pulmonary Vessels (McGraw-Hill, New York, 1955)
    Google Scholar
  7. Weibel, E. R. & Gomez, D. M. Architecture of the human lung. Science 137, 577–585 (1962)
    Article ADS CAS Google Scholar
  8. Weibel, E. R. Morphometry of the Human Lung (Academic, New York, 1963)
    Book Google Scholar
  9. Metzger, R. J. & Krasnow, M. A. Genetic control of branching morphogenesis. Science 284, 1635–1639 (1999)
    Article CAS Google Scholar
  10. Meinhardt, H. Morphogenesis of lines and nets. Differentiation 6, 117–123 (1976)
    Article CAS Google Scholar
  11. Mandelbrot, B. B. The Fractal Geometry of Nature (Freeman, New York, 1983)
    Book Google Scholar
  12. Nelson, T. R. & Manchester, D. K. Modeling of lung morphogenesis using fractal geometries. IEEE Trans. Med. Imaging 7, 321–327 (1988)
    Article CAS Google Scholar
  13. Prusinkiewicz, P. & Lindenmayer, A. The Algorithmic Beauty of Plants (Springer, New York, 1990)
    Book Google Scholar
  14. Kitaoka, H., Takaki, R. & Suki, B. A three-dimensional model of the human airway tree. J. Appl. Physiol. 87, 2207–2217 (1999)
    Article CAS Google Scholar
  15. Tawhai, M., Pullan, A. & Hunter, P. Generation of an anatomically based three-dimensional model of the conducting airways. Ann. Biomed. Eng. 28, 793–802 (2000)
    Article Google Scholar
  16. Miura, T. Modeling lung branching morphogenesis. Curr. Top. Dev. Biol. 81, 291–310 (2007)
    Article Google Scholar
  17. Tebockhorst, S., Lee, D., Wexler, A. S. & Oldham, M. J. Interaction of epithelium with mesenchyme affects global features of lung architecture: a computer model of development. J. Appl. Physiol. 102, 294–305 (2007)
    Article Google Scholar
  18. Cardoso, W. V. & Lu, J. Regulation of early lung morphogenesis: questions, facts and controversies. Development 133, 1611–1624 (2006)
    Article CAS Google Scholar
  19. His, W. Zur Bildungsgeschichte der Lungen beim menschlichen Embryo. Arch. Anat. Entwicklungsgeschichte 1887, 89–106 (1887)
    Google Scholar
  20. Flint, J. M. Development of the lungs. Am. J. Anat. 6, 1–138 (1906)
    Article Google Scholar
  21. Heiss, R. Zur Entwicklung und Anatomie der menschlichen Lunge. Arch. Anat. Physiol. Anatomische Abteilung 1919, 1–129 (1919)
    Google Scholar
  22. Borghese, E. The development in vitro of the submandibular and sublingual glands of Mus musculus . J. Anat. 84, 287–302 (1950)
    CAS PubMed PubMed Central Google Scholar
  23. Alescio, T. Osservazioni su culture organotipiche di polmone embrionale di topo. Arch. Ital. Anat. Embriol. 65, 323–363 (1960)
    CAS PubMed Google Scholar
  24. Massoud, E. A. et al. In vitro branching morphogenesis of the fetal rat lung. Pediatr. Pulmonol. 15, 89–97 (1993)
    Article CAS Google Scholar
  25. Watanabe, T. & Costantini, F. Real-time analysis of ureteric bud branching morphogenesis in vitro . Dev. Biol. 271, 98–108 (2004)
    Article CAS Google Scholar
  26. Supp, D. M., Witte, D. P., Potter, S. S. & Brueckner, M. Mutation of an axonemal dynein affects left–right asymmetry in inversus viscerum mice. Nature 389, 963–966 (1997)
    Article ADS CAS Google Scholar
  27. Hummel, K. P. & Chapman, D. B. Visceral inversion and associated anomalies in the mouse. J. Hered. 50, 9–13 (1959)
    Article Google Scholar
  28. Shim, K., Minowada, G., Coling, D. E. & Martin, G. R. Sprouty2, a mouse deafness gene, regulates cell fate decisions in the auditory sensory epithelium by antagonizing FGF signaling. Dev. Cell 8, 553–564 (2005)
    Article CAS Google Scholar
  29. Hacohen, N. et al. Sprouty encodes a novel antagonist of FGF signaling that patterns apical branching of the Drosophila airways. Cell 92, 253–263 (1998)
    Article CAS Google Scholar
  30. Minowada, G. et al. Vertebrate Sprouty genes are induced by FGF signaling and can cause chondrodysplasia when overexpressed. Development 126, 4465–4475 (1999)
    CAS PubMed Google Scholar
  31. Eppig, J. T. et al. Mouse Genome Databasehttp://www.informatics.jax.org〉 (2005)
    Google Scholar
  32. Hogan, B. L. Morphogenesis. Cell 96, 225–233 (1999)
    Article CAS Google Scholar
  33. Warburton, D. et al. Molecular mechanisms of early lung specification and branching morphogenesis. Pediatr. Res. 57, 26R–37R (2005)
    Article Google Scholar
  34. Maeda, Y., Dave, V. & Whitsett, J. A. Transcriptional control of lung morphogenesis. Physiol. Rev. 87, 219–244 (2007)
    Article CAS Google Scholar
  35. al-Awqati, Q. & Goldberg, M. R. Architectural patterns in branching morphogenesis in the kidney. Kidney Int. 54, 1832–1842 (1998)
    Article CAS Google Scholar
  36. Lu, P., Sternlicht, M. D. & Werb, Z. Comparative mechanisms of branching morphogenesis in diverse systems. J. Mammary Gland Biol. Neoplasia 11, 213–228 (2006)
    Article Google Scholar
  37. Thomson, A. A. & Marker, P. C. Branching morphogenesis in the prostate gland and seminal vesicles. Differentiation 74, 382–392 (2006)
    Article CAS Google Scholar
  38. Shubin, N. H. & Alberch, P. A morphogenetic approach to the origin and basic organization of the tetrapod limb. Evol. Biol. 20, 319–387 (1986)
    Google Scholar
  39. Shubin, N., Tabin, C. & Carroll, S. Fossils, genes and the evolution of animal limbs. Nature 388, 639–648 (1997)
    Article ADS CAS Google Scholar
  40. Prusinkiewicz, P. et al. Evolution and development of inflorescence architectures. Science 316, 1452–1456 (2007)
    Article ADS CAS Google Scholar
  41. Wells, L. J. & Boyden, E. A. The development of the bronchopulmonary segments in human embryos of horizons XVII to XIX. Am. J. Anat. 95, 163–201 (1954)
    Article CAS Google Scholar
  42. Hirai, Y., Nose, A., Kobayashi, S. & Takeichi, M. Expression and role of E- and P-cadherin adhesion molecules in embryonic histogenesis. I. Lung epithelial morphogenesis. Development 105, 263–270 (1989)
    CAS PubMed Google Scholar

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