| P50 | author | Gérard Benoit | Q56480055 |
| | Fabrice Chatonnet | Q92751291 |
| P2093 | author name string | Romain Guyot | |
| | Frederic Flamant | |
| P2860 | cites work | Analysis of Relative Gene Expression Data Using Real-Time Quantitative PCR and the 2−ΔΔCT Method | Q25938999 |
| | Structural determinants of nuclear receptor assembly on DNA direct repeats | Q27730227 |
| | Structure and specificity of nuclear receptor-coactivator interactions | Q27765991 |
| | International Union of Pharmacology. LIX. The pharmacology and classification of the nuclear receptor superfamily: thyroid hormone receptors | Q28276117 |
| | 6-Phosphofructo-2-kinase (pfkfb3) gene promoter contains hypoxia-inducible factor-1 binding sites necessary for transactivation in response to hypoxia | Q28286230 |
| | Multipotent neural cell lines can engraft and participate in development of mouse cerebellum | Q28290006 |
| | Thyroid hormone-responsive genes in developing cerebellum include a novel synaptotagmin and a hairless homolog | Q28565041 |
| | Genetic analysis reveals different functions for the products of the thyroid hormone receptor alpha locus | Q30531151 |
| | The thyroid hormone receptor alpha1 protein is expressed in embryonic postmitotic neurons and persists in most adult neurons | Q33637236 |
| | Functions of thyroid hormone receptors in mice | Q33848306 |
| | Brain glucose utilization in mice with a targeted mutation in the thyroid hormone alpha or beta receptor gene | Q33934516 |
| | Anxiety, memory impairment, and locomotor dysfunction caused by a mutant thyroid hormone receptor alpha1 can be ameliorated by T3 treatment. | Q34009147 |
| | The patterns of binding of RAR, RXR and TR homo- and heterodimers to direct repeats are dictated by the binding specificites of the DNA binding domains. | Q34064607 |
| | Stimulatory effects of thyroid hormone on brain angiogenesis in vivo and in vitro. | Q34170840 |
| | Genome-wide search reveals the existence of a limited number of thyroid hormone receptor alpha target genes in cerebellar neurons | Q34268981 |
| | Resistance to thyroid hormone | Q34435743 |
| | An efficient tandem affinity purification procedure for interaction proteomics in mammalian cells | Q34576212 |
| | Thyroid hormone-regulated enhancer blocking: cooperation of CTCF and thyroid hormone receptor | Q34910599 |
| | ChIP-based methods for the identification of long-range chromatin interactions | Q34953329 |
| | Alpha and beta thyroid hormone receptor (TR) gene expression during auditory neurogenesis: evidence for TR isoform-specific transcriptional regulation in vivo | Q34975544 |
| | Mice devoid of all known thyroid hormone receptors are viable but exhibit disorders of the pituitary-thyroid axis, growth, and bone maturation | Q35197215 |
| | Oestrogen receptor-co-factor-chromatin specificity in the transcriptional regulation of breast cancer. | Q35626357 |
| | The ligand binding domain controls glucocorticoid receptor dynamics independent of ligand release. | Q35856724 |
| | Genome-wide protein-DNA binding dynamics suggest a molecular clutch for transcription factor function | Q35926498 |
| | Fundamentally distinct roles of thyroid hormone receptor isoforms in a thyrotroph cell line are due to differential DNA binding | Q35970060 |
| | Controlling nuclear receptors: the circular logic of cofactor cycles | Q36163600 |
| | Isoform-specific transcriptional activity of overlapping target genes that respond to thyroid hormone receptors alpha1 and beta1 | Q37418159 |
| | Thyroid hormone mimetics: potential applications in atherosclerosis, obesity and type 2 diabetes | Q37428723 |
| | Thyromimetics: a journey from bench to bed-side | Q37866871 |
| | The origins and evolution of vertebrate metamorphosis | Q37940765 |
| | CTCF: insights into insulator function during development | Q37987091 |
| | Thyroid hormone receptors: the challenge of elucidating isotype-specific functions and cell-specific response | Q38019236 |
| | The book of opposites: the role of the nuclear receptor co-regulators in the suppression of epidermal genes by retinoic acid and thyroid hormone receptors | Q38327348 |
| | Identical gene regulation patterns of T3 and selective thyroid hormone receptor modulator GC-1. | Q39446395 |
| | VEGF mediates commissural axon chemoattraction through its receptor Flk1. | Q40198920 |
| | How do thyroid hormone receptors bind to structurally diverse response elements? | Q40686392 |
| | Analysis of the molecular mechanisms of human estrogen receptors alpha and beta reveals differential specificity in target promoter regulation by xenoestrogens | Q40708079 |
| | The optimal discovery procedure for large-scale significance testing, with applications to comparative microarray experiments | Q42596288 |
| | Impact of low-level thyroid hormone disruption induced by propylthiouracil on brain development and function | Q42726416 |
| | Thyroid hormone receptor isoform selectivity of thyroid hormone disrupting compounds quantified with an in vitro reporter gene assay | Q42729598 |
| | Chromatin remodeling by the thyroid hormone receptor in regulation of the thyroid-stimulating hormone alpha-subunit promoter | Q43675436 |
| | Thyroid hormone receptor beta mutation causes severe impairment of cerebellar development | Q44589932 |
| | The bioenergetic and antioxidant status of neurons is controlled by continuous degradation of a key glycolytic enzyme by APC/C-Cdh1. | Q45735127 |
| | Molecular and structural biology of thyroid hormone receptors. | Q46197600 |
| | Thyroid hormone receptor subtype specificity for hormone-dependent neurogenesis in Xenopus laevis | Q46214130 |
| | Marginal iodide deficiency and thyroid function: dose-response analysis for quantitative pharmacokinetic modeling | Q46360047 |
| | Independent expression of the alpha and beta c-erbA genes in developing rat brain | Q48668223 |
| | Thyroid hormone receptors TRalpha1 and TRbeta differentially regulate gene expression of Kcnq4 and prestin during final differentiation of outer hair cells | Q50463760 |
| | A mutation in the thyroid hormone receptor alpha gene. | Q51836050 |
| | Neurocognitive characteristics of individuals with resistance to thyroid hormone: comparisons with individuals with attention-deficit hyperactivity disorder. | Q52204373 |
| | Lack of action of exogenously administered T3 on the fetal rat brain despite expression of the monocarboxylate transporter 8. | Q54614460 |
| | Comparison of Administration of Recombinant Human Thyrotropin with Withdrawal of Thyroid Hormone for Radioactive Iodine Scanning in Patients with Thyroid Carcinoma | Q58004699 |
| | Structural rearrangements in the thyroid hormone receptor hinge domain and their putative role in the receptor function | Q79744800 |
| | Thyroid hormone response element organization dictates the composition of active receptor | Q79802949 |
| | A point mutation in the activation function 2 domain of thyroid hormone receptor alpha1 expressed after CRE-mediated recombination partially recapitulates hypothyroidism | Q80593524 |
| | Clinical phenotype and mutant TRα1 | Q83860845 |
| | Severe impairment of cerebellum development in mice expressing a dominant-negative mutation inactivating thyroid hormone receptor alpha1 isoform | Q84215036 |
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | E766-75 | |
| P577 | publication date | 2013-02-04 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Genome-wide analysis of thyroid hormone receptors shared and specific functions in neural cells | |
| P478 | volume | 110 | |