Keyphrases
Single nucleotide Polymorphism
100%
Exercise Training Program
100%
Genomic Predictors
100%
O2 Uptake
100%
VO2max
40%
Exercise Training
30%
Health Risk Factors
30%
Exercise Genetics
30%
White People
20%
O2max
20%
Regular Exercise
20%
ZIC4
20%
Genome-wide Association Study
10%
Response Exercise
10%
Glutamate Receptors
10%
N-methyl-D-aspartate
10%
Heritability
10%
Transcriptional Repressor
10%
Family Study
10%
Adaptation
10%
Dose-response
10%
Training Response
10%
Acyl-CoA
10%
CoA Synthase
10%
K Channels
10%
Zinc Finger Protein
10%
Morbidity Mortality
10%
Morphogenesis
10%
Strong Predictor
10%
Voltage Gating
10%
People of Color
10%
Replication Study
10%
Cardiovascular Mortality
10%
White Women
10%
Cerebellum
10%
Single nucleotide Polymorphism Analysis
10%
Regulator of G Protein Signaling
10%
New Targets
10%
Genetic Family
10%
Cardiorespiratory Fitness
10%
Exercise Program
10%
Calmodulin
10%
Trainability
10%
Ionotropic
10%
Stepwise Regression Analysis
10%
PRDM1
10%
PR Domain
10%
Favorable Alleles
10%
Necdin
10%
Risk Reduction Intervention
10%
Sedentary Adults
10%
Women's Exercise
10%
Biochemistry, Genetics and Molecular Biology
Single-Nucleotide Polymorphism
100%
Oxygen Consumption
100%
Exercise
100%
Genomics
100%
Genetics
27%
Allele
18%
Synthase
9%
Morphogenesis
9%
Electric Potential
9%
Dose Response
9%
Transcription
9%
Acyl-CoA
9%
Potassium Channel
9%
Cardiovascular Mortality
9%
Regulator of G Protein Signalling
9%
Risk Reduction
9%
Ionotropic Receptor
9%
Necdin
9%
Dishevelled
9%
Ionotropic Glutamate Receptor
9%
PRDM1
9%
Calmodulin
9%
Aspartic Acid
9%
Medicine and Dentistry
Single Nucleotide Polymorphism
100%
Oxygen Consumption
100%
Exercise
100%
Health Hazard
27%
Allele
18%
Obesity
9%
Morphogenesis
9%
Heritability
9%
Dose Response
9%
Synthetase
9%
Potassium Channel
9%
Zinc Finger Protein
9%
Cardiovascular Mortality
9%
Risk Reduction
9%
Cerebellum
9%
Cardiorespiratory
9%
Acyl-CoA
9%
Aspartic Acid
9%
Necdin
9%
RGS Protein
9%
Calmodulin Binding
9%
Ionotropic Receptor
9%
Immunology and Microbiology
Oxygen Consumption
100%
Single Nucleotide Polymorphism
100%
Exercise
100%
Allele
18%
Morphogenesis
9%
Dose Response
9%
Electric Potential
9%
Heritability
9%
Potassium Channels
9%
Cerebellum
9%
Calmodulin Binding
9%
Cardiovascular Mortality
9%
Necdin
9%
Neuroscience
Single-Nucleotide Polymorphism
100%
Potassium Channel
9%
Aspartic Acid
9%
Ionotropic Receptor
9%
Ionotropic Glutamate Receptor
9%
Cerebellum
9%
Zinc Finger
9%
Acyl Coenzyme A
9%
Synthetase
9%
PRDM1
9%
Necdin
9%
Regulator of G Protein Signalling
9%
Morphogenesis
9%
Calmodulin
9%