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Stress-responsive HILPDA is necessary for thermoregulation during fasting
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Dive into the research topics of 'Stress-responsive HILPDA is necessary for thermoregulation during fasting'. Together they form a unique fingerprint.
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Keyphrases
Hypoxia-inducible
100%
Thermoregulation
100%
Stress-responsive
100%
Lipid Droplet-associated Proteins
100%
Whole-body
37%
HILPDA
37%
Knockout Animals
25%
Brown Adipocytes
25%
Luciferase
12%
Protein Expression
12%
KO Mice
12%
Environmental Stress
12%
Phenotypic Differences
12%
Ablation
12%
Exon
12%
Oxygen Consumption
12%
Body Temperature
12%
Triglyceride Level
12%
Mouse Strain
12%
Behavioral Parameters
12%
Protein Knockout
12%
Hepatocytes
12%
Thermoneutral Zone
12%
Housing Conditions
12%
Genetically Engineered Mouse Models
12%
Adipocyte
12%
Acclimatization
12%
Systemic Stress
12%
Lipid Droplets
12%
Whole Animal
12%
Cell-intrinsic
12%
Metabolic Parameters
12%
Lipid Droplet Formation
12%
Fuel Consumption
12%
Suboptimal Environment
12%
Adipocyte Differentiation
12%
Body Homeostasis
12%
Blood Chemistry Parameters
12%
Intrinsic Stress
12%
Lipid Mobilization
12%
Lipid Storage
12%
Protein S Deficiency
12%
Ambulatory Activity
12%
Adipocyte Precursors
12%
Ambulatory Oxygen Therapy
12%
Biochemistry, Genetics and Molecular Biology
Thermoregulation
100%
Lipid Droplet
100%
Adipocyte
40%
Lipid Metabolism
10%
Homeostasis
10%
Mouse Model
10%
Knockout Mouse
10%
Protein Expression
10%
Luciferase
10%
Triglyceride
10%
Precursor
10%
Exon
10%
Body Temperature
10%
Oxygen Consumption
10%
Lipid Storage
10%
Hepatocyte
10%
Mouse Strain
10%
Genetically Engineered Mouse Strain
10%
Environmental Stress
10%