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References

  • Aizawa, H., Bianco, I. H., Hamaoka, T., Miyashita, T., Uemura, O., Concha, M. L., Russell, C., Wilson, S. W. & Okamoto, H. 2005. Laterotopic representation of left-right information onto the dorso-ventral axis of a zebrafish midbrain target nucleus. Curr. Biol. 15, 238243.
  • Aritaki, M., Ohta, K., Hotta, Y., Tagawa, M. & Tanaka, M. 2004. Temperature effects on larval development and occurrence of metamorphosis-related morphological abnormalities in hatchery-reared spotted halibut Verasper variegatus juveniles. Bull. Jpn. Soc. Sci. Fish. 70, 815.
  • Bisgrove, B. W., Snarr, B. S., Emrazian, A. & Yost, H. J. 2005. Polaris and Polycystin-2 in dorsal forerunner cells and Kupffer’s vesicle are required for specification of the zebrafish left-right axis. Dev. Biol. 287, 274288.
  • Brewster, B. 1987. Eye migration and cranial development during flatfish metamorphosis a reappraisal teleostei pleuronectiformes. J. Fish Biol. 31, 805834.
  • Concha, M. L., Burdine, R. D., Russell, C., Schier, A. F. & Wilson, S. W. 2000. A nodal signaling pathway regulates the laterality of neuroanatomical asymmetries in the zebrafish forebrain. Neuron 28, 399409.
  • Concha, M. L., Russell, C., Regan, J. C., Tawk, M., Sidi, S., Gilmour, D. T., Kapsimali, M., Sumoy, L., Goldstone, K., Amaya, E., Kimelman, D., Nicolson, T., Grunder, S., Gomperts, M., Clarke, J. D. & Wilson, S. W. 2003. Local tissue interactions across the dorsal midline of the forebrain establish CNS laterality. Neuron 39, 423438.
  • Concha, M. L. & Wilson, S. W. 2001. Asymmetry in the epithalamus of vertebrates. J. Anat. 199, 6384.
  • Ellertsdottir, E., Ganz, J., Durr, K., Loges, N., Biemar, F., Seifert, F., Ettl, A. K., Kramer-Zucker, A. K., Nitschke, R. & Driever, W. 2006. A mutation in the zebrafish Na,K-ATPase subunit atp1a1a.1 provides genetic evidence that the sodium potassium pump contributes to left-right asymmetry downstream or in parallel to nodal flow. Dev. Dyn. 235, 17941808.
  • Essner, J. J., Amack, J. D., Nyholm, M. K., Harris, E. B. & Yost, H. J. 2005. Kupffer’s vesicle is a ciliated organ of asymmetry in the zebrafish embryo that initiates left-right development of the brain, heart and gut. Development 132, 12471260.
  • Friedman, M. 2008. The evolutionary origin of flatfish asymmetry. Nature 454, 209212.
  • Gamse, J. T., Kuan, Y. S., Macurak, M., Brosamle, C., Thisse, B., Thisse, C. & Halpern, M. E. 2005. Directional asymmetry of the zebrafish epithalamus guides dorsoventral innervation of the midbrain target. Development 132, 48694881.
  • Gamse, J. T., Thisse, C., Thisse, B. & Halpern, M. E. 2003. The parapineal mediates left-right asymmetry in the zebrafish diencephalon. Development 130, 10591068.
  • Guglielmotti, V., Cristino, L., Sada, E. & Bentivoglio, M. 2004. The epithalamus of the developing and adult frog: calretinin expression and habenular asymmetry in Rana esculenta. Brain Res. 999, 919.
  • Guglielmotti, V. & Fiorino, L. 1999. Nitric oxide synthase activity reveals an asymmetrical organization of the frog habenulae during development: a histochemical and cytoarchitectonic study from tadpoles to the mature Rana esculenta, with notes on the pineal complex. J. Comp. Neurol. 411, 441454.
  • Hamada, H., Meno, C., Watanabe, D. & Saijoh, Y. 2002. Establishment of vertebrate left-right asymmetry. Nat. Rev. Genet. 3, 103113.
  • Hashimoto, H., Aritaki, M., Uozumi, K., Uji, S., Kurokawa, T. & Suzuki, T. 2007. Embryogenesis and expression profiles of charon and nodal-pathway genes in sinistral (Paralichthys olivaceus) and dextral (Verasper variegatus) flounders. Zool. Sci. 24, 137146.
  • Hashimoto, H., Mizuta, A., Okada, N., Suzuki, T., Tagawa, M., Tabata, K., Yokoyama, Y., Sakaguchi, M., Tanaka, M. & Toyohara, H. 2002. Isolation and characterization of a Japanese flounder clonal line, reversed, which exhibits reversal of metamorphic left-right asymmetry. Mech. Dev. 111, 1724.
  • Hashimoto, H., Rebagliati, M., Ahmad, N., Muraoka, O., Kurokawa, T., Hibi, M. & Suzuki, T. 2004. The Cerberus/Dan-family protein Charon is a negative regulator of Nodal signaling during left-right patterning in zebrafish. Development 131, 17411753.
  • Hubbs, C. L. & Hubbs, L. C. 1944. Bilateral asymmetry and bilateral variation in fishes. Pap. Mich. Acad. Sci. Arts Lett. 30, 229310.
  • Ishimaru, Y., Komatsu, T., Kasahara, M., Katoh-Fukui, Y., Ogawa, H., Toyama, Y., Maekawa, M., Toshimori, K., Chandraratna, R. A., Morohashi, K. & Yoshioka, H. 2008. Mechanism of asymmetric ovarian development in chick embryos. Development 135, 677685.
  • Jowett, T. & Lettice, L. 1994. Whole-mount in situ hybridizations on zebrafish embryos using a mixture of digoxigenin- and fluorescein-labelled probes. Trends Genet. 10, 7374.
  • Kurokawa, T., Suzuki, T. & Andoh, T. 2000. Development of cholecystokinin and pancreatic polypeptide endocrine systems during the larval stage of Japanese flounder, Paralichthys olivaceus. Gen. Comp. Endocrinol. 120, 816.
  • Liang, J. O., Etheridge, A., Hantsoo, L., Rubinstein, A. L., Nowak, S. J., Izpisua Belmonte, J. C. & Halpern, M. E. 2000. Asymmetric nodal signaling in the zebrafish diencephalon positions the pineal organ. Development 127, 51015112.
  • Long, S., Ahmad, N. & Rebagliati, M. 2003. The zebrafish nodal-related gene southpaw is required for visceral and diencephalic left-right asymmetry. Development 130, 23032316.
  • Neugebauer, J. M., Amack, J. D., Peterson, A. G., Bisgrove, B. W. & Yost, H. J. 2009. FGF signalling during embryo development regulates cilia length in diverse epithelia. Nature 458, 651654.
  • Okada, N., Takagi, Y., Seikai, T., Tanaka, M. & Tagawa, M. 2001. Asymmetrical development of bones and soft tissues during eye migration of metamorphosing Japanese flounder, Paralichthys olivaceus. Cell Tissue Res. 304, 5966.
  • Palmer, A. R. 2004. Symmetry breaking and the evolution of development. Science 306, 828833.
  • Schreiber, A. M. 2006. Asymmetric craniofacial remodeling and lateralized behavior in larval flatfish. J. Exp. Biol. 209, 610621.
  • Soffientino, B. & Specker, J. L. 2001. Metamorphosis of summer flounder, Paralichthys dentatus: cell proliferation and differentiation of the gastric mucosa and developmental effects of altered thyroidal status. J. Exp. Zool. 290, 3140.
  • Tagawa, M. & Aritaki, M. 2005. Production of symmetrical flatfish by controlling the timing of thyroid hormone treatment in spotted halibut Verasper variegatus. Gen. Comp. Endocrinol. 141, 184189.
  • Watanabe, K., Washio, Y., Fujinami, Y., Aritaki, M., Uji, S. & Suzuki, T. 2008. Adult-type pigment cells, which color the ocular sides of flounders at metamorphosis, localize as precursor cells at the proximal parts of the dorsal and anal fins in early larvae. Dev. Growth Differ. 50, 731741.