Biochemistry, Genetics and Molecular Biology
Knockout Mouse
100%
Protein
87%
Breathing Rate
83%
Mitochondrion
83%
Photooxidation
66%
Gene Expression Profiling
66%
Cytochrome
66%
Mouse Model
66%
Reductase
66%
Rett Syndrome
66%
5-HT1B Receptor
66%
Phospholipase D
66%
TRPM8
66%
Reduction (Chemistry)
27%
Cell Adhesion
22%
Processing
19%
Phospholipase D1
19%
Oxidative Phosphorylation
16%
Electric Potential
16%
Morphology
16%
Chromatin Immunoprecipitation
16%
Mitochondrial Disorder
16%
Nested Gene
16%
Promoter Region
16%
Nuclear Gene
16%
Mutation
16%
Wild Type
16%
Animal Models
16%
Superoxide Dismutase
16%
Gene Overexpression
16%
Electron Paramagnetic Resonance Spectroscopy
16%
Differential Display
16%
Transcriptional Repressor
16%
Prion
16%
Mouse
16%
MECP2
16%
Oxygen Consumption
16%
Aptitude
11%
Alpha Oxidation
11%
Immersion
11%
Adsorption
11%
Ultraviolet Radiation
11%
Molecule
11%
Drive
11%
Plasma Protein
11%
Contrast
11%
Adhesion
11%
Multielectrode Array
11%
Development
11%
Surface Property
11%
Neuroscience
Brain
83%
Mitochondrion
83%
Gene Expression
66%
Synapsin I
66%
Expression Analysis
66%
Core Protein
66%
Rett Syndrome
66%
Free Radicals
66%
Phospholipase D
66%
TRPM8
38%
Gene
33%
Protein
30%
Cell Adhesion
22%
In Vivo
19%
Behavior (Neuroscience)
19%
Spinal Cord
19%
Eicosanoid Receptor
19%
Promoter Region
16%
Prion
16%
NADH Dehydrogenase (Ubiquinone)
16%
Nervous System Disorder
16%
Immunoprecipitation
16%
Gene Overexpression
16%
Neurodegenerative Disorder
16%
Repressor
16%
MECP2
16%
Superoxide Dismutase
16%
Oxidative Phosphorylation
16%
Spectroscopy
16%
Neuroblastoma
16%
Chromatin
16%
Aldehyde
11%
Blood Proteins
11%
Cell Growth
11%
Multielectrode Array
11%
Oxides
11%
Cell Line
9%
Enhancer Region
9%
Central Nervous System
9%
Nerve Tissue
9%
Receptor Antagonist
9%
Protein-Protein Interaction
9%
Neuropathic Pain
9%
Transient Receptor Potential Channel
9%
Intravenous Immunoglobulin
9%
Receptor Expression
9%
Kinase
9%
Receptor Agonists
9%
Pharmacology, Toxicology and Pharmaceutical Science
Receptor
66%
Erethism
66%
Pain
66%
Transient Receptor Potential Channel M8
66%
Phospholipase D
66%
Protein
38%
Phospholipase D1
19%
Inflammatory Pain
9%
Animal
9%
Neuropathic Pain
9%
Rat
9%
Phosphotransferase
9%
Chronic Pain
9%
Immunoglobulin
9%
Chronic Inflammatory Pain
9%
Serotonin 1B Antagonist
9%
Calcium Ion
9%
Transient Receptor Potential Channel
9%
Receptor Agonist
9%