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The emerging role of p53 in exercise metabolism
Jonathan D. Bartlett
, Graeme L. Close
,
Barry Drust
, James P. Morton
*
*
Corresponding author for this work
Life and Environmental Sciences
Research output
:
Contribution to journal
›
Review article
›
peer-review
Overview
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Dive into the research topics of 'The emerging role of p53 in exercise metabolism'. Together they form a unique fingerprint.
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Keyphrases
Skeletal muscle
100%
Exercise Metabolism
100%
Tfam
100%
P53 Knockout Mouse
100%
Exercise-induced
66%
P53 Pathway
66%
Mitochondrial Content
66%
Obesity
33%
DNA Repair
33%
Physiologist
33%
Type 2 Diabetes Mellitus (T2DM)
33%
Ablation
33%
Coactivator
33%
Apoptosis
33%
P53 Activation
33%
Phosphorylation
33%
Tumor Protein p53 (TP53)
33%
Protein Level
33%
Cell Biology
33%
P38 Mitogen-activated Protein Kinase (p38 MAPK)
33%
Fiber Type
33%
Mitochondria
33%
Post-translational Modification
33%
Exercise Performance
33%
Cell Cycle Arrest
33%
Muscle Contraction
33%
Angiogenesis
33%
Electrical Stimulation
33%
Human Skeletal muscle
33%
MRNA Level
33%
Human Performance
33%
Mitochondrial DNA
33%
Messenger RNA (mRNA)
33%
Peroxisome Proliferator-activated Receptor
33%
Translocated
33%
Exercise Capacity
33%
Training Status
33%
Human Health
33%
Exercise Effect
33%
Guardian
33%
Regulatory Role
33%
Mitochondrial Respiration
33%
Protein Content
33%
Mitochondrial Function
33%
Stimulation Protocol
33%
Low-carbohydrate Diet
33%
Nutrient Availability
33%
Muscle Tissue
33%
Muscle Cells
33%
Substrate Metabolism
33%
Mitochondrial Transcription Factor A
33%
Mitochondrial Biogenesis
33%
Reactive Oxygen Species Production
33%
Skeletal muscle Metabolism
33%
Regular Exercise
33%
Exercise Prescription
33%
Metabolic Disorders
33%
Subsarcolemmal
33%
Oxidase
33%
Molecular Player
33%
Treadmill Running
33%
Carbohydrate Availability
33%
Cell Senescence
33%
Physiological Benefits
33%
Nonmuscle
33%
Exercise Modality
33%
P53 Regulation
33%
Aging Type
33%
Cytochrome c Oxidase Activity
33%
Monophosphate-activated Protein Kinase
33%
Intermyofibrillar
33%
Resistance Intensity
33%
Interfibrillar Mitochondria
33%
Prescription Guidelines
33%
State 3 Respiration
33%
Subcellular Translocation
33%
Mitochondrium
33%
Biochemistry, Genetics and Molecular Biology
Metabolic Pathway
100%
P53
100%
Skeletal Muscle
23%
Knockout Mouse
17%
Mitochondrion
11%
P38 Mitogen-Activated Protein Kinases
5%
Serine
5%
Messenger RNA
5%
Protein Kinases
5%
Oxidoreductase
5%
Muscle Contraction
5%
Angiogenesis
5%
Peroxisome Proliferator-Activated Receptor Gamma
5%
Cytochrome C Oxidase
5%
Mitochondrial DNA
5%
DNA Repair
5%
Cell Cycle Arrest
5%
Cell Cycle Checkpoint
5%
Protein Content
5%
Posttranslational Modification
5%
Mitochondrial Biogenesis
5%
Mitochondrial Transcription Factor A
5%
Oxidase
5%
Mitochondrial Respiration
5%
Skeletal Muscle Metabolism
5%
Programmed Cell Death
5%
Neuroscience
Metabolic Pathway
100%
P53
100%
Skeletal Muscle
29%
Mitochondrion
11%
P38 Mitogen-Activated Protein Kinases
5%
Protein Kinases
5%
Messenger RNA
5%
Angiogenesis
5%
Electrotherapy
5%
Cellular Senescence
5%
Reactive Oxygen Species
5%
Serine
5%
Peroxisome Proliferator-Activated Receptor Gamma
5%
Cell Cycle Arrest
5%
Cell Cycle Checkpoint
5%
Posttranslational Modification
5%
DNA Repair
5%
AP-1 Transcription Factor
5%
Mitochondrial DNA
5%
Cytochrome C Oxidase
5%
Mitochondrial Respiration
5%
Mitochondrial Biogenesis
5%
Mitochondrial Transcription Factor A
5%
Programmed Cell Death
5%
Medicine and Dentistry
Protein P53
100%
Skeletal Muscle
23%
Knockout Mouse
17%
Mitochondrion
11%
DNA Repair
5%
Public Health
5%
Physiologist
5%
Malignant Neoplasm
5%
Mitogen Activated Protein Kinase P38
5%
Programmed Cell Death
5%
Cytotechnology
5%
Messenger RNA
5%
Oxidoreductase
5%
Muscle Contraction
5%
Angiogenesis
5%
Electrotherapy
5%
Maturity Onset Diabetes of the Young
5%
Treadmill Exercise
5%
Peroxisome Proliferator Activated Receptor Gamma
5%
Protein Kinases
5%
Serine
5%
Reactive Oxygen Species
5%
Cell Cycle Checkpoint
5%
Cell Cycle Arrest
5%
Transcription Factor AP 1
5%
Cellular Senescence
5%
Skeletal Muscle Metabolism
5%
Mitochondrial DNA
5%
Mitochondrial Biogenesis
5%
Mitochondrial Transcription Factor A
5%
Cytochrome C Oxidase
5%
Mitochondrial Respiration
5%
Nutrient Availability
5%
Metabolic Disorder
5%
Post-Translational Modification
5%
Pharmacology, Toxicology and Pharmaceutical Science
Protein P53
100%
Knockout Mouse
17%
Mitogen Activated Protein Kinase P38
5%
Malignant Neoplasm
5%
Messenger RNA
5%
Oxidoreductase
5%
Protein Kinases
5%
Serine
5%
Non Insulin Dependent Diabetes Mellitus
5%
Peroxisome Proliferator Activated Receptor Gamma
5%
Reactive Oxygen Metabolite
5%
Transcription Factor AP 1
5%
Mitochondrial DNA
5%
Cytochrome C Oxidase
5%
Mitochondrial Transcription Factor A
5%