Toby L. Chambers Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Post-Doctoral Research Scholar

University of Arkansas at Fayetteville

postdoc

12 h-index 39 pubs 774 cited

Research Areas

Muscle Physiology and Disorders Epigenetics and DNA Methylation Exercise and Physiological Responses Genomics and Chromatin Dynamics Diet and metabolism studies Molecular Biology Techniques and Applications Bioinformatics and Genomic Networks

Links

ORCID Lab Website Research Group

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OverviewAI-generated summary

Toby L. Chambers' research investigates the molecular and physiological adaptations to exercise, particularly endurance training, across different human tissues. Chambers has published on the temporal dynamics of multi-omic responses to endurance exercise, examining transcriptomic and epigenomic signatures in skeletal muscle and adipose tissue. Their work has explored the effects of lifelong endurance exercise on single muscle fiber contractile characteristics and fast and slow muscle fiber transcriptome dynamics. Chambers has also studied the influence of factors like aspirin and resistance exercise on specific molecular pathways within skeletal muscle. This research contributes to understanding how the body responds to and adapts to physical activity at a molecular level.

Metrics

h-index: 12
Publications: 39
Citations: 774

Selected Publications

Mitochondrial capacities and quality control following short‐ and long‐term weight restoration after simulated anorexia nervosa (2025) DOI
Regenerate to “Rejuvenate”: Insights From Adult Resident Stem Cells of Aged Flatworms and Mice (2025) DOI
Promoting mitochondrial fusion is protective against cancer-induced muscle detriments in males and females (2025) DOI
Consensus Statements—Optimizing Performance of the Elite Athlete (2025) DOI
Global mitophagy inhibition via BNIP3 ablation is not sufficient to alleviate skeletal muscle impairments in male and female tumor-bearing mice (2025) DOI
A history of omics discoveries reveals the correlates and mechanisms of loading-induced hypertrophy in adult skeletal muscle. 2024 CaMPS young investigator award invited review (2025) DOI
A satellite cell‐dependent epigenetic fingerprint in skeletal muscle identity genes after lifelong physical activity (2025) DOI
The 24-hour molecular landscape after exercise in humans reveals MYC is sufficient for muscle growth (2024) DOI
Methylome–proteome integration after late‐life voluntary exercise training reveals regulation and target information for improved skeletal muscle health (2024) DOI