astray, a Zebrafish roundabout Homolog Required for Retinal Axon Guidance

doi:10.1126/science.1059496

Account Information

Guest Alerts | Access Rights | My Account | Sign In

Site Navigation

Article Views

Article Tools

My Science

More Information

Related Jobs from ScienceCareers

Neuroscience

Science 20 April 2001:
Vol. 292. no. 5516, pp. 507 - 510
DOI: 10.1126/science.1059496

Prev | Table of Contents | Next

Reports

astray, a Zebrafish roundabout Homolog Required for Retinal Axon Guidance

Cornelia Fricke,¹ Jeong-Soo Lee,¹ Silke Geiger-Rudolph,² Friedrich Bonhoeffer,³ Chi-Bin Chien¹^*

As growing retinotectal axons navigate from the eye to the tectum, they sense guidance molecules distributed along the opticpathway. Mutations in the zebrafish astray gene severely disruptretinal axon guidance, causing anterior-posterior pathfindingdefects, excessive midline crossing, and defasciculation of theretinal projection. Eye transplantation experiments show thatastray function is required in the eye. We identify astray aszebrafish robo2, a member of the Roundabout family of axon guidancereceptors. Retinal ganglion cells express robo2 as they extendaxons. Thus, robo2 is required for multiple axon guidance decisionsduring establishment of the vertebrate visual projection.

¹ Department of Neurobiology and Anatomy, University of Utah Medical Center, 50 North Medical Drive, Salt Lake City, UT 84132, USA. Abteilung
² Genetik and
³ Physikalische Biologie, Max-Planck Institut für Entwicklungsbiologie, Spemannstrasse 35, D-72076 Tübingen, Germany.
^* To whom correspondence should be addressed at Department of Neurobiology and Anatomy, 401 MREB, University of Utah MedicalCenter, 50 North Medical Drive, Salt Lake City, UT 84132, USA.E-mail: chi-bin.chien{at}hsc.utah.edu

Read the Full Text

THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:

Pathfinding in a large vertebrate axon tract: isotypic interactions guide retinotectal axons at multiple choice points.: A. J. Pittman, M.-Y. Law, and C.-B. Chien (2008)
Development 135, 2865-2871
| Abstract » | Full Text » | PDF »

Dual Branch-Promoting and Branch-Repelling Actions of Slit/Robo Signaling on Peripheral and Central Branches of Developing Sensory Axons.: L. Ma and M. Tessier-Lavigne (2007)
J. Neurosci. 27, 6843-6851
| Abstract » | Full Text » | PDF »

Stromal Cell-Derived Factor-1 Antagonizes Slit/Robo Signaling In Vivo.: S. H. Chalasani, A. Sabol, H. Xu, M. A. Gyda, K. Rasband, M. Granato, C.-B. Chien, and J. A. Raper (2007)
J. Neurosci. 27, 973-980
| Abstract » | Full Text » | PDF »

Matrix metalloproteinases are required for retinal ganglion cell axon guidance at select decision points.: C. L. Hehr, J. C. Hocking, and S. McFarlane (2005)
Development 132, 3371-3379
| Abstract » | Full Text » | PDF »

A GFP-based genetic screen reveals mutations that disrupt the architecture of the zebrafish retinotectal projection.: T. Xiao, T. Roeser, W. Staub, and H. Baier (2005)
Development 132, 2955-2967
| Abstract » | Full Text » | PDF »

Robo2 is required for establishment of a precise glomerular map in the zebrafish olfactory system.: N. Miyasaka, Y. Sato, S.-Y. Yeo, L. D. Hutson, C.-B. Chien, H. Okamoto, and Y. Yoshihara (2005)
Development 132, 1283-1293
| Abstract » | Full Text » | PDF »

Chemokine Signaling Guides Axons within the Retina in Zebrafish.: Q. Li, K. Shirabe, C. Thisse, B. Thisse, H. Okamoto, I. Masai, and J. Y. Kuwada (2005)
J. Neurosci. 25, 1711-1717
| Abstract » | Full Text » | PDF »

Formation of the retinotectal projection requires Esrom, an ortholog of PAM (protein associated with Myc).: J. D'Souza, M. Hendricks, S. Le Guyader, S. Subburaju, B. Grunewald, K. Scholich, and S. Jesuthasan (2005)
Development 132, 247-256
| Abstract » | Full Text » | PDF »

Mena and Vasodilator-Stimulated Phosphoprotein Are Required for Multiple Actin-Dependent Processes That Shape the Vertebrate Nervous System.: A. S. Menzies, A. Aszodi, S. E. Williams, A. Pfeifer, A. M. Wehman, K. L. Goh, C. A. Mason, R. Fassler, and F. B. Gertler (2004)
J. Neurosci. 24, 8029-8038
| Abstract » | Full Text » | PDF »

Mutations in a Human ROBO Gene Disrupt Hindbrain Axon Pathway Crossing and Morphogenesis.: J. C. Jen, W.-M. Chan, T. M. Bosley, J. Wan, J. R. Carr, U. Rub, D. Shattuck, G. Salamon, L. C. Kudo, J. Ou, et al. (2004)
Science 304, 1509-1513
| Abstract » | Full Text » | PDF »

On the topographic targeting of basal vomeronasal axons through Slit-mediated chemorepulsion.: B. Knoll, H. Schmidt, W. Andrews, S. Guthrie, A. Pini, V. Sundaresan, and U. Drescher (2003)
Development 130, 5073-5082
| Abstract » | Full Text » | PDF »

Tenascin-R as a Repellent Guidance Molecule for Developing Optic Axons in Zebrafish.: C. G. Becker, J. Schweitzer, J. Feldner, T. Becker, and M. Schachner (2003)
J. Neurosci. 23, 6232-6237
| Abstract » | Full Text » | PDF »

Distinguishing between Directional Guidance and Motility Regulation in Neuronal Migration.: M. Ward, C. McCann, M. DeWulf, J. Y. Wu, and Y. Rao (2003)
J. Neurosci. 23, 5170-5177
| Abstract » | Full Text » | PDF »

Molecular Mechanisms of Axon Guidance.: B. J. Dickson (2002)
Science 298, 1959-1964
| Abstract » | Full Text » | PDF »

Slit1 and Slit2 Proteins Control the Development of the Lateral Olfactory Tract.: K. T. Nguyen-Ba-Charvet, A. S. Plump, M. Tessier-Lavigne, and A. Chedotal (2002)
J. Neurosci. 22, 5473-5480
| Abstract » | Full Text » | PDF »