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Nuclear Receptor
Nuclear Receptor
Estrogen-related receptor- and peroxisome proliferator-activated receptor- coactivator-1 regulate estrogen-related receptor- gene expression via a conserved multi-hormone response element
Molecular endocrinology / Gene expression / Molecular Mechanics / Nuclear Receptor / Peroxisome proliferator-activated receptor / Clinical Sciences / Skeletal Muscle / Chromatin Immunoprecipitation / Endometrial carcinoma / Veterinary Sciences / Cold Stress / Clinical Sciences / Skeletal Muscle / Chromatin Immunoprecipitation / Endometrial carcinoma / Veterinary Sciences / Cold Stress
Tocopherol transfer protein deficiency modifies nuclear receptor transcriptional networks in lungs: Modulation by cigarette smoke in vivo
Genetics / Immune response / Tobacco / Inflammation / Oxidative Stress / Nuclear Receptor / Biological Sciences / Liver / Reactive Oxygen Species / Mice / Female / Animals / Microarrays / Gene networks / Gene Network / Genome / Lipid metabolism / Lung / Smoke / Gene Regulatory Networks / Transcription Factor / Lipoprotein(a) / Chip / Adaptive Response / Lipoprotein a / Immunoglobulin / Gene Expression Regulation / Nuclear Receptor / Biological Sciences / Liver / Reactive Oxygen Species / Mice / Female / Animals / Microarrays / Gene networks / Gene Network / Genome / Lipid metabolism / Lung / Smoke / Gene Regulatory Networks / Transcription Factor / Lipoprotein(a) / Chip / Adaptive Response / Lipoprotein a / Immunoglobulin / Gene Expression Regulation
FTZ-Factor1 and Fushi tarazu interact via conserved nuclear receptor and coactivator motifs
Molecular Evolution / Transcription Factors / Nuclear Receptor / Biological Sciences / DNA / Drosophila / Animals / Amino Acid Sequence / Base Sequence / DNA binding proteins / Ligands / Molecular Sequence Data / Drosophila / Animals / Amino Acid Sequence / Base Sequence / DNA binding proteins / Ligands / Molecular Sequence Data
Eicosapentaenoic Acid Induces mRNA Expression of Peroxisome Proliferator-Activated Receptor γ
Obesity / Gene regulation / Kinetics / Transcription Factors / Gene expression / Multidisciplinary / Nuclear Receptor / Adipose tissue / Humans / Blood Glucose / Insulin / Fatty acids / Omega-3 fatty acids / Female / Male / Polymerase Chain Reaction / Research Method / Peroxisome proliferator-activated receptor / Body Mass Index / Aged / Middle Aged / mRna expression levels / Adipocytes / Fatty Acid / Mechanism of action / Eicosapentaenoic Acid / Docosahexaenoic Acid / Gene Expression Regulation / Dietary fats / Multidisciplinary / Nuclear Receptor / Adipose tissue / Humans / Blood Glucose / Insulin / Fatty acids / Omega-3 fatty acids / Female / Male / Polymerase Chain Reaction / Research Method / Peroxisome proliferator-activated receptor / Body Mass Index / Aged / Middle Aged / mRna expression levels / Adipocytes / Fatty Acid / Mechanism of action / Eicosapentaenoic Acid / Docosahexaenoic Acid / Gene Expression Regulation / Dietary fats
Nuclear Receptor-Coregulator Interaction Profiling Identifies TRIP3 as a Novel Peroxisome Proliferator-activated Receptor Cofactor
Transcription Factors / Multidisciplinary / Nuclear Receptor / Cell line / Cell Differentiation / Humans / Mutation / Animals / Peptides / Oral Hypoglycemic Agents / Adipocytes / Benzimidazoles / Ligands / Angiotensin Converting Enzyme Inhibitors / Humans / Mutation / Animals / Peptides / Oral Hypoglycemic Agents / Adipocytes / Benzimidazoles / Ligands / Angiotensin Converting Enzyme Inhibitors
PPARγ3 mRNA: a distinct PPARγ mRNA subtype transcribed from an independent promoter
Nuclear Receptor / Adipose tissue / Peroxisome proliferator-activated receptor / mRna expression levels / Prostaglandin E2 / Nuclear hormone receptor / Biochemistry and cell biology / Nuclear hormone receptor / Biochemistry and cell biology
Zac1 functional interactions mediate AP-1 transcriptional activity
Gene regulation / Medical Microbiology / Cell Cycle / Transcription Factors / Apoptosis / Western blotting / Nuclear Receptor / Biological Sciences / Humans / Mutation / Physical sciences / Transcription Factor / HeLa cells / Cell Cycle Arrest / Cell Cycle Proteins / Biochemistry and cell biology / Zinc Finger Protein / Western blotting / Nuclear Receptor / Biological Sciences / Humans / Mutation / Physical sciences / Transcription Factor / HeLa cells / Cell Cycle Arrest / Cell Cycle Proteins / Biochemistry and cell biology / Zinc Finger Protein
Indanylacetic acids as PPAR-δ activator insulin sensitizers
Organic Chemistry / Fluorescence Resonance Energy Transfer / Nuclear Receptor / Insulin Resistance / In Vitro / Insulin / In Vivo / Spectrum / PPAR / Acetic Acid / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligand / Chemical Synthesis / Selectivity / Activator / Insulin / In Vivo / Spectrum / PPAR / Acetic Acid / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligand / Chemical Synthesis / Selectivity / Activator
P450 CYP2C epoxygenase and CYP4A v-hydroxylase mediate ciprofibrate-induced PPARa-dependent peroxisomal proliferation
Nuclear Receptor / Ligand Binding / Lipid metabolism
Indanylacetic acids as PPAR-δ activator insulin sensitizers
Organic Chemistry / Fluorescence Resonance Energy Transfer / Nuclear Receptor / Insulin Resistance / In Vitro / Insulin / In Vivo / Spectrum / PPAR / Acetic Acid / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligand / Chemical Synthesis / Selectivity / Activator / Insulin / In Vivo / Spectrum / PPAR / Acetic Acid / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligand / Chemical Synthesis / Selectivity / Activator
Substituted indanylacetic acids as PPAR-α–γ activators
Organic Chemistry / Nuclear Receptor / Blood Glucose / Mice / Animals / Triglycerides / Spectrum / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligands / Molecular Structure / Triglycerides / Spectrum / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligands / Molecular Structure
Indanylacetic acids as PPAR-δ activator insulin sensitizers
Organic Chemistry / Fluorescence Resonance Energy Transfer / Nuclear Receptor / Insulin Resistance / In Vitro / Insulin / In Vivo / Spectrum / PPAR / Acetic Acid / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligand / Chemical Synthesis / Selectivity / Activator / Insulin / In Vivo / Spectrum / PPAR / Acetic Acid / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligand / Chemical Synthesis / Selectivity / Activator
Substituted indanylacetic acids as PPAR-α–γ activators
Organic Chemistry / Nuclear Receptor / Blood Glucose / Mice / Animals / Triglycerides / Spectrum / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligands / Molecular Structure / Triglycerides / Spectrum / Bioorganic and medicinal Chemistry / Structure activity Relationship / Ligands / Molecular Structure
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