Zebrafish hox genes: genomic organization and modified colinear expression patterns in the trunk

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JOURNAL ARTICLES

Zebrafish hox genes: genomic organization and modified colinear expression patterns in the trunk

VE Prince, L Joly, M Ekker and RK Ho
Department of Molecular Biology, Princeton University, NJ 08544, USA. vprince@midway.uchicago.edu

The Hox genes are implicated in conferring regional identity to the anteroposterior axis of the developing embryo. We have characterized the organization and expression of hox genes in the teleost zebrafish (Danio rerio), and compared our findings with those made for the tetrapod vertebrates. We have isolated 32 zebrafish hox genes, primarily via 3'RACE-PCR, and analyzed their linkage relationships using somatic cell hybrids. We find that in comparison to the tetrapods, zebrafish has several additional hox genes, both within and beyond the expected 4 hox clusters (A-D). For example, we have isolated a member of hox paralogue group 8 lying on the hoxa cluster, and a member of hox paralogue group 10 lying on the b cluster, no equivalent genes have been reported for mouse or human. Beyond the 4 clusters (A-D) we have isolated a further 3 hox genes (the hoxx and y genes), which according to their sequence homologies lie in paralogue groups 4, 6, and 9. The hoxx4 and hoxx9 genes occur on the same set of hybrid chromosomes, hinting at the possibility of an additional hox cluster for the zebrafish. Similar to their tetrapod counterparts, zebrafish hox genes (including those with no direct tetrapod equivalent) demonstrate colinear expression along the anteroposterior (AP) axis of the embryo. However, in comparison to the tetrapods, anterior hox expression limits are compacted over a short AP region; some members of adjacent paralogue groups have equivalent limits. It has been proposed that during vertebrate evolution, the anterior limits of Hox gene expression have become dispersed along the AP axis allowing the genes to take on novel patterning roles and thus leading to increased axial complexity. In the teleost zebrafish, axial organization is relatively simple in comparison to that of the tetrapod vertebrates; this may be reflected by the less dispersed expression domains of the zebrafish hox genes.

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				I. Skromne, D. Thorsen, M. Hale, V. E. Prince, and R. K. Ho Repression of the hindbrain developmental program by Cdx factors is required for the specification of the vertebrate spinal cord Development, June 1, 2007; 134(11): 2147 - 2158. [Abstract] [Full Text] [PDF]

				T. Shimizu, Y.-K. Bae, and M. Hibi Cdx-Hox code controls competence for responding to Fgfs and retinoic acid in zebrafish neural tissue Development, December 1, 2006; 133(23): 4709 - 4719. [Abstract] [Full Text] [PDF]

				G. Bellipanni, M. Varga, S. Maegawa, Y. Imai, C. Kelly, A. P. Myers, F. Chu, W. S. Talbot, and E. S. Weinberg Essential and opposing roles of zebrafish {beta}-catenins in the formation of dorsal axial structures and neurectoderm Development, April 1, 2006; 133(7): 1299 - 1309. [Abstract] [Full Text] [PDF]

				S. Ellingsen, M. A. Laplante, M. Konig, H. Kikuta, T. Furmanek, E. A. Hoivik, and T. S. Becker Large-scale enhancer detection in the zebrafish genome Development, September 1, 2005; 132(17): 3799 - 3811. [Abstract] [Full Text] [PDF]

				Y. Murakami, M. Pasqualetti, Y. Takio, S. Hirano, F. M. Rijli, and S. Kuratani Segmental development of reticulospinal and branchiomotor neurons in lamprey: insights into the evolution of the vertebrate hindbrain Development, March 1, 2004; 131(5): 983 - 995. [Abstract] [Full Text] [PDF]

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				J. M. McClintock, M. A. Kheirbek, and V. E. Prince Knockdown of duplicated zebrafish hoxb1 genes reveals distinct roles in hindbrain patterning and a novel mechanism of duplicate gene retention Development, March 7, 2003; 129(10): 2339 - 2354. [Abstract] [Full Text] [PDF]

				J. S. Taylor, I. Braasch, T. Frickey, A. Meyer, and Y. Van de Peer Genome Duplication, a Trait Shared by 22,000 Species of Ray-Finned Fish Genome Res., March 1, 2003; 13(3): 382 - 390. [Abstract] [Full Text] [PDF]

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				T. X. Liu, Y. Zhou, J. P. Kanki, M. Deng, J. Rhodes, H. W. Yang, X. M. Sheng, L. I. Zon, and A. T. Look Evolutionary conservation of zebrafish linkage group 14 with frequently deleted regions of human chromosome 5 in myeloid malignancies PNAS, April 30, 2002; 99(9): 6136 - 6141. [Abstract] [Full Text] [PDF]

				E. Malaga-Trillo and A. Meyer Genome Duplications and Accelerated Evolution of Hox Genes and Cluster Architecture in Teleost Fishes Integr. Comp. Biol., June 1, 2001; 41(3): 676 - 686. [Abstract] [Full Text] [PDF]

				M. Robinson-Rechavi, O. Marchand, H. Escriva, P.-L. Bardet, D. Zelus, S. Hughes, and V. Laudet Euteleost Fish Genomes are Characterized by Expansion of Gene Families Genome Res., May 1, 2001; 11(5): 781 - 788. [Abstract] [Full Text]

				L Durbin, P Sordino, A Barrios, M Gering, C Thisse, B Thisse, C Brennan, A Green, S Wilson, and N Holder Anteroposterior patterning is required within segments for somite boundary formation in developing zebrafish Development, January 4, 2000; 127(8): 1703 - 1713. [Abstract] [PDF]

				C. Popovici, R. Roubin, F. Coulier, P. Pontarotti, and D. Birnbaum The Family of Caenorhabditis elegans Tyrosine Kinase Receptors: Similarities and Differences with Mammalian Receptors Genome Res., November 1, 1999; 9(11): 1026 - 1039. [Abstract] [Full Text]

				G Weidinger, U Wolke, M Koprunner, M Klinger, and E Raz Identification of tissues and patterning events required for distinct steps in early migration of zebrafish primordial germ cells Development, January 12, 1999; 126(23): 5295 - 5307. [Abstract] [PDF]

				C. Neumann, H Grandel, W Gaffield, S Schulte-Merker, and C Nusslein-Volhard Transient establishment of anteroposterior polarity in the zebrafish pectoral fin bud in the absence of sonic hedgehog activity Development, January 11, 1999; 126(21): 4817 - 4826. [Abstract] [PDF]

				K Brunschwig, C Wittmann, R Schnabel, T. Burglin, H Tobler, and F Muller Anterior organization of the Caenorhabditis elegans embryo by the labial-like Hox gene ceh-13 Development, January 4, 1999; 126(7): 1537 - 1546. [Abstract] [PDF]

				A. Amores, A. Force, Y. Yan, L. Joly, C. Amemiya, A. Fritz, R. K. Ho, J. Langeland, V. Prince, Y. Wang, et al. Zebrafish hox Clusters and Vertebrate Genome Evolution Science, November 27, 1998; 282(5394): 1711 - 1714. [Abstract] [Full Text]

				F. Hallbook, L.-G. Lundin, and K. Kullander Lampetra fluviatilis Neurotrophin Homolog, Descendant of a Neurotrophin Ancestor, Discloses the Early Molecular Evolution of Neurotrophins in the Vertebrate Subphylum J. Neurosci., November 1, 1998; 18(21): 8700 - 8711. [Abstract] [Full Text] [PDF]

				F. C. Serluca, A. Sidow, J. D. Mably, and M. C. Fishman Partitioning of Tissue Expression Accompanies Multiple Duplications of the Na+/K+ ATPase alpha Subunit Gene Genome Res., October 1, 2001; 11(10): 1625 - 1631. [Abstract] [Full Text] [PDF]