Triiodothyronine amplifies norepinephrine stimulation of uncoupling protein gene transcription by a mechanism not requiring protein synthesis

Keyphrases

• Protein Synthesis 100%
• Gene Transcription 100%
• Triiodothyronine 100%
• Uncoupling Protein 100%
• Uncoupling Protein Gene 100%
• Transcription Rate 62%
• Hypothyroid 50%
• Transcriptional Response 25%
• 4-fold 25%
• MRNA Abundance 25%
• Denervation 25%
• Euthyroid 25%
• Fold Increase 12%
• Receptor Complex 12%
• Transcription Assay 12%
• Cycloheximide 12%
• Nuclear Run-on 12%
• Intravenous Injection 12%
• Lack of Response 12%
• Acute Effects 12%
• Brown Adipose Tissue 12%
• Newly Synthesized Proteins 12%
• Emetine 12%
• Interscapular Brown Adipose Tissue 12%
• T3 Receptors 12%
• Primary Signal 12%
• Signal Amplifying 12%
• Dual Control 12%

Biochemistry, Genetics and Molecular Biology

• Protein Biosynthesis 100%
• Genetic Transcription 100%
• Triiodothyronine 100%
• Liothyronine 100%
• Uncoupling Protein 100%
• Norepinephrine 100%
• Messenger RNA 53%
• Transcription 46%
• Cycloheximide 6%
• Nuclear Run-On 6%
• Rattus norvegicus 6%

Neuroscience

• Protein Biosynthesis 100%
• Genetic Transcription 100%
• Norepinephrine 100%
• Triiodothyronine 100%
• Uncoupling Protein 100%
• Messenger RNA 53%
• Denervation 13%
• Brown Adipose Tissue 13%
• Receptor 13%
• Cycloheximide 6%
• Emetine 6%
• Liothyronine Receptor 6%
• Nucleus 6%