Jaw and branchial arch mutants in zebrafish I: Branchial arches
Schilling T, Piotrowski T, Grandel H, Brand M, Heisenberg C-PJ, Jiang Y, Beuchle D, Hammerschmidt M, Kane D, Mullins M, Van Eeden F, Kelsh R, Furutani Seiki M, Granato M, Haffter P, Odenthal J, Warga R, Trowe T, Nüsslein Volhard C. 1996. Jaw and branchial arch mutants in zebrafish I: Branchial arches. Development. 123(1), 329–344.
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Journal Article
| Published
| English
Scopus indexed
Author
Schilling, Thomas;
Piotrowski, Tatjana;
Grandel, Heiner;
Brand, Michael;
Heisenberg, Carl-Philipp ISTA ;
Jiang, Yunjin;
Beuchle, Dirk;
Hammerschmidt, Matthias;
Kane, Donald;
Mullins, Mary;
Van Eeden, Fredericus;
Kelsh, Robert
All
All
Abstract
Jaws and branchial arches together are a basic, segmented feature of the vertebrate head, Seven arches develop in the zebrafish embryo (Danio rerio), derived largely from neural crest cells that form the cartilaginous skeleton, In this and the following paper we describe the phenotypes of 109 arch mutants, focusing here on three classes that affect the posterior pharyngeal arches, including the hyoid and five gill-bearing arches, In lockjaw, the hyoid arch is strongly reduced and subsets of branchial arches do not develop, Mutants of a large second class, designated the flathead group, lack several adjacent branchial arches and their associated cartilages. Five alleles at the flathead locus all lead to larvae that lack arches 4-6, Among 34 other flathead group members complementation tests are incomplete, but at least six unique phenotypes can be distinguished, These all delete continuous stretches of adjacent branchial arches and unpaired cartilages in the ventral midline, Many show cell death in the midbrain, from which some neural crest precursors of the arches originate, lockjaw and a few mutants in the flathead group, including pistachio, affect both jaw cartilage and pigmentation, reflecting essential functions of these genes in at least two neural crest lineages, Mutants of a third class, including boxer, dackel and pincher, affect pectoral fins and axonal trajectories in the brain, as well as the arches. Their skeletal phenotypes suggest that they disrupt cartilage morphogenesis in all arches, Our results suggest that there are sets of genes that: (1) specify neural crest cells in groups of adjacent head segments, and (2) function in common genetic pathways in a variety of tissues including the brain, pectoral fins and pigment cells as well as pharyngeal arches.
Publishing Year
Date Published
1996-12-01
Journal Title
Development
Publisher
Company of Biologists
Acknowledgement
We thank Drs Charles Kimmel, Philip Ingham, Paula Mabee and members of the Ingham lab for critical comments on the manuscript.
Volume
123
Issue
1
Page
329 - 344
ISSN
IST-REx-ID
Cite this
Schilling T, Piotrowski T, Grandel H, et al. Jaw and branchial arch mutants in zebrafish I: Branchial arches. Development. 1996;123(1):329-344. doi:10.1242/dev.123.1.329
Schilling, T., Piotrowski, T., Grandel, H., Brand, M., Heisenberg, C.-P. J., Jiang, Y., … Nüsslein Volhard, C. (1996). Jaw and branchial arch mutants in zebrafish I: Branchial arches. Development. Company of Biologists. https://doi.org/10.1242/dev.123.1.329
Schilling, Thomas, Tatjana Piotrowski, Heiner Grandel, Michael Brand, Carl-Philipp J Heisenberg, Yunjin Jiang, Dirk Beuchle, et al. “Jaw and Branchial Arch Mutants in Zebrafish I: Branchial Arches.” Development. Company of Biologists, 1996. https://doi.org/10.1242/dev.123.1.329.
T. Schilling et al., “Jaw and branchial arch mutants in zebrafish I: Branchial arches,” Development, vol. 123, no. 1. Company of Biologists, pp. 329–344, 1996.
Schilling T, Piotrowski T, Grandel H, Brand M, Heisenberg C-PJ, Jiang Y, Beuchle D, Hammerschmidt M, Kane D, Mullins M, Van Eeden F, Kelsh R, Furutani Seiki M, Granato M, Haffter P, Odenthal J, Warga R, Trowe T, Nüsslein Volhard C. 1996. Jaw and branchial arch mutants in zebrafish I: Branchial arches. Development. 123(1), 329–344.
Schilling, Thomas, et al. “Jaw and Branchial Arch Mutants in Zebrafish I: Branchial Arches.” Development, vol. 123, no. 1, Company of Biologists, 1996, pp. 329–44, doi:10.1242/dev.123.1.329.
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PMID: 9007253
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