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Alberto Joven et al.
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Laurent M. Sachs et al.
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Christopher K. Beachy et al.
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A. Olvera et al.
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Turan Demircan et al.
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An Integrative Endocrine Model for the Evolution of Developmental Timing and Life History of Plethodontids and Other Salamanders
Ronald M. Bonett
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A temporary compendium of thyroid hormone target genes in brain
F. Chatonnet et al.
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Thomas W. Holstein et al.
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Mathieu Denoel et al.
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Robert P. Aran et al.
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Alexis Grimaldi et al.
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3,5-T-2 Is an Alternative Ligand for the Thyroid Hormone Receptor beta 1
A. Mendoza et al.
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Genome-wide analysis of thyroid hormone receptors shared and specific functions in neural cells
Fabrice Chatonnet et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2013)
Developmental diversity of amphibians
Richard P. Elinson et al.
WILEY INTERDISCIPLINARY REVIEWS-DEVELOPMENTAL BIOLOGY (2012)
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Emerging properties of animal gene regulatory networks
Eric H. Davidson
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Deep homology and the origins of evolutionary novelty
Neil Shubin et al.
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Mathilde Paris et al.
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Neurodevelopmental and neurophysiological actions of thyroid hormone
G. R. Williams
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DD Brown
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LQ Cai et al.
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The axolotl (Ambystoma mexicanum), a neotenic amphibian, expresses functional thyroid hormone receptors
R Safi et al.
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Endocrine mechanisms underlying plasticity in metamorphic timing in spadefoot toads
GC Boorse et al.
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Extending the table of stages of normal development of the axolotl: Limb development
HLD Nye et al.
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The nuclear receptor superfamily
M Robinson-Rechavi et al.
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Neurodevelopmental control by thyroid hormone receptors
D Forrest et al.
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