Biology Reference
In-Depth Information
Elinson, R. P., & del Pino, E. M. (2012). Developmental diversity of amphibians.
WIREs
Essner, J. J., Breuer, J. J., Esner, R. D., Fahrenkrug, S. C., & Hackett, P. B., Jr. (1997). The
zebrafish thyroid hormone receptor alpha 1 is expressed during early embryogenesis and
can function in transcriptional repression.
Differentiation
,
62
, 107-117.
Etkin, W. (1935). The mechanisms of anuran metamorphosis. I. Thyroxine concentrations
and the metamorphic pattern.
Journal of Experimental Zoology
,
71
, 317-340.
Fang, H., & Elinson, R. P. (1996). Patterns of distal-less gene expression and inductive in-
teractions in the head of the direct developing frog
Eleutherodactylus coqui
.
Developmental
Biology
,
179
, 160-172.
Fang, H., & Elinson, R. P. (1999). Evolutionary alteration in anterior patterning:
otx2
ex-
pression in the direct developing frog
Eleutherodactylus coqui
.
Developmental Biology
,
205
,
233-239.
Flamant, F., & Samarut, J. (1998). Involvement of thyroid hormone and its alpha receptor in
avian neurulation.
Developmental Biology
,
197
, 1-11.
Forrest, D., Sj
¨
berg, M., & Vennstr
¨
m, B. (1990). Contrasting developmental and tissue-
specific expression of
and
thyroid hormone receptor genes.
The EMBO Journal
,
a
b
9
, 1519-1528.
Grover, G. J., Dunn, C., Nguyen, N.-H., Boulet, J., Dong, G., Domogauer, J., et al. (2007).
Pharmacological profile of the thyroid hormone receptor antagonist NH3 in rats.
Journal
of Pharmacology and Experimental Therapeutics
,
322
, 385-390.
Hanaoka, Y. (1967). The effects of posterior hypothalectomy upon the growth and meta-
morphosis of the tadpole of
Rana pipiens
.
General and Comparative Endocrinology
,
8
,
417-431.
Hanken, J. (1999). Larvae in amphibian development and evolution. In B. K. Hall & M. H.
Wake (Eds.),
The origin and evolution of larval forms
(pp. 61-108). San Diego: Academic
Press.
Hanken, J., Jennings, D. H., & Olsson, L. (1997). Mechanistic basis of life-history evolution
in anuran amphibians: Direct development.
American Zoologist
,
37
, 160-171.
Hanken, J., Klymkowsky, M. W., Summers, C. H., Seufert, D. W., & Ingebrigtsen, N.
(1992). Cranial ontogeny in the direct-developing frog,
Eleutherodactylus coqui
(Anura:
Leptodactylidae), analyzed by using whole-mount immunohistochemistry.
Journal of
Morphology
,
211
, 95-118.
Havis, E., Le Mevel, S., Morvan Dubois, G., Shi, D.-L., Scanlan, T. S., Demeneix, B. A.,
et al. (2006). Unliganded thyroid hormone receptor is essential for
Xenopus laevis
eye de-
velopment.
The EMBO Journal
,
25
, 4943-4951.
Hedges, S. B., Duellman, W. E., & Heinicke, M. P. (2008). New World direct-developing
frogs (Anura:Terrarana): Molecular phylogeny, classification, biogeography, and conser-
vation.
Zootaxa
,
1737
, 1-182.
Heinicke, M. P., Duellman, W. E., & Hedges, S. B. (2007). Major Caribbean and Central
American frog faunas originated by ancient oceanic dispersal.
Proceedings of the National
Academy of Sciences of the United States of America
,
104
, 10092-10097.
Ho, D. H., Reed, W. L., & Burggren, W. W. (2011). Egg yolk environment differentially
influences physiological and morphological development of broiler and layer chicken
embryos.
The Journal of Experimental Biology
,
214
, 619-628.
Hoskins, S. G. (1986). Control of the development of the ipsilateral retinothalamic pro-
jection in
Xenopus laevis
by thyroxine: Results and speculation.
Journal of Neurobiology
,
17
, 203-229.
Hoskins, S. G. (1990). Metamorphosis of the amphibian eye.
Journal of Neurobiology
,
21
,
970-989.
Hoskins, E. R., & Hoskins, M. M. (1919). Growth and development of amphibia as affected
by thyroidectomy.
The Journal of Experimental Zoology
,
29
, 1-69.
