Biology Reference
In-Depth Information
Morvan-Dubois, G., Sebillot, A., Kuiper, G. G., Verhoelst, C. H., Darras, V. M.,
Visser, T. J., et al. (2006). Deiodinase activity is present in
Xenopus laevis
during early
embryogenesis.
Endocrinology
,
147
, 4941-4949.
Nath, K., Fisher, C., & Elinson, R. P. (2013). Expression of a cardiac myosin gene in non-
heart tissues of developing frogs.
Development Genes and Evolution
. (in press).
Old, R., Jones, E. A., Sweeney, G., & Smith, D. P. (1992). Precocious synthesis of a thyroid
hormone receptor in
Xenopus
embryos causes hormone-dependent developmental ab-
normalities.
Roux's Archives of Developmental Biology
,
201
, 312-321.
Pethiyagoda, R., &Manamendra-Arachchi, K. (1998). Evaluating Sri Lanka's amphibian di-
versity.
Occasional Papers of Wildlife Heritage Trust
,
2
, 1-12.
Power, D. M., Llewellyn, L., Faustino, M., Nowell, M. A., Bjornsson, B. T.,
Einarsdottir, I. E., et al. (2001). Thyroid hormones in growth and development of fish.
Comparative Biochemistry and Physiology. Part C: Toxicology & Pharmacology
,
130
,
447-459.
Prati, M., Calvo, R., Morreale, G., & Morreale de Escobar, G. (1992). L-thyroxine and
3,5,3'-triiodothyronine concentrations in the chicken egg and in the embryo before
and after the onset of thyroid function.
Endocrinology
,
130
, 2651-2659.
Rot-Nikcevic, I., & Wassersug, R. J. (2004). Arrested development in
Xenopus laevis
tad-
poles: How size constrains metamorphosis.
The Journal of Experimental Biology
,
207
,
2133-2145.
Sachs, L. M., Damjanovski, S., Jones, P. L., Li, Q., Amano, T., Ueda, S., et al. (2000). Dual
functions of thyroid hormone receptors during
Xenopus
development.
Comparative Bio-
chemistry and Physiology. B
,
126
, 199-211.
Sato, Y., Buchholz, D. R., Paul, B. D., & Shi, Y.-B. (2007). A role for unliganded thyroid
hormone receptor in postembryonic development in
Xenopus laevis
.
Mechanisms of Devel-
opment
,
124
, 476-488.
Schlosser, G. (2008). Development of the retinotectal system in the direct-developing frog
Eleutherodactylus coqui
in comparison with other anurans.
Frontiers in Zoology
,
5
,9.
Schlosser, G., Kintner, C., & Northcutt, R. G. (1999). Loss of ectodermal competence for
lateral line placode formation in the direct developing frog
Eleutherodactylus coqui
.
Devel-
opmental Biology
,
213
, 354-369.
Schlosser, G., & Roth, G. (1997). Development of the retina is altered in the directly devel-
oping frog
Eleutherodactylus coqui
(Leptodactylidae).
Neuroscience Letters
,
224
, 153-156.
Schmid, M., Steinlein, C., Bogart, J. P., Feichtinger, W., Leon, P., La Marca, E., et al. (2010).
The chromosomes of terraranan frogs. Insights into vertebrate cytogenetics.
Cytogenetic
and Genome Research
,
130
-
131
, 1-568.
Schreiber, A. M., Das, B., Huang, H., Marsh-Armstrong, N., & Brown, D. D. (2001).
Diverse developmental programs of
Xenopus laevis
metamorphosis are inhibited by a
dominant negative thyroid hormone receptor.
Proceedings of the National Academy of Sci-
ences of the United States of America
,
98
, 10739-10744.
Shi, Y.-B. (2000).
Amphibian metamorphosis.
New York: John Wiley & Sons 288 pp.
Singamsetty, S., & Elinson, R. P. (2010). Novel regulation of yolk utilization by thyroid hor-
mone in embryos of the direct developing frog
Eleutherodactylus coqui
.
Evolution & Devel-
opment
,
12
, 437-448.
Terry, G. S. (1918). Effects of the extirpation of the thyroid gland upon ossification in
Rana
pipiens
.
The Journal of Experimental Zoology
,
24
, 567-587.
Thibaudeau, G., & Altig, R. (1999). Endotrophic anurans, development and evolution. In
R. W. McDiarmid &R. Altig (Eds.),
Tadpoles, the biology of anuran larvae
(pp. 170-188).
Chicago: University of Chicago Press.
Tindall, A. J., Morris, I. D., Pownall, M. E., & Isaacs, H. V. (2007). Expression of enzymes
involved in thyroid hormone metabolism during the early development of
Xenopus
tropicalis
.
Biology of the Cell
,
99
, 151-163.