Stuart J Hesketh

Overview

Explore the profile of Stuart J Hesketh including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 10

Citations 80

Followers 0

Related Specialties

Biology

Cell Biology

Physiology

Top 10 Co-Authors

Karyn A Esser

Christopher A Wolff

Mark R Viggars

Miguel A Gutierrez-Monreal

Jatin G Burniston

Zhiguang Huo

Collin M Douglas

Connor A Stead

Ryan A Martin

Jonathan C Jarvis

Published In

bioRxiv

Proteomes

Expert Rev Proteomics

Sports Med Health Sci

FASEB J

Affiliations

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Recent Articles

The clockwork of champions: Influence of circadian biology on exercise performance

Hesketh S, Esser K

Free Radic Biol Med . 2024 Aug; 224():78-87. PMID: 39168419

Exercise physiology and circadian biology are distinct and long-standing fields. Recently they have seen increased integration, largely due to the discovery of the molecular components of the circadian clock and...

Skeletal muscle BMAL1 is necessary for transcriptional adaptation of local and peripheral tissues in response to endurance exercise training

Viggars M, Berko H, Hesketh S, Wolff C, Gutierrez-Monreal M, Martin R, et al.

Mol Metab . 2024 Jul; 86:101980. PMID: 38950777

Objective: In this investigation, we addressed the contribution of the core circadian clock factor, BMAL1, in skeletal muscle to both acute transcriptional responses to exercise and transcriptional remodeling in response...

Advancing cancer cachexia diagnosis with -omics technology and exercise as molecular medicine

Hesketh S

Sports Med Health Sci . 2024 Mar; 6(1):1-15. PMID: 38463663

Muscle atrophy exacerbates disease outcomes and increases mortality, whereas the preservation of skeletal muscle mass and function play pivotal roles in ensuring long-term health and overall quality-of-life. Muscle atrophy represents...

Skeletal muscle BMAL1 is necessary for transcriptional adaptation of local and peripheral tissues in response to endurance exercise training

Viggars M, Berko H, Hesketh S, Wolff C, Gutierrez-Monreal M, Martin R, et al.

bioRxiv . 2023 Oct; PMID: 37905004

Objectives: In this investigation, we addressed the contribution of the core circadian clock factor, BMAL1, in skeletal muscle to both acute transcriptional responses to exercise and transcriptional remodelling in response...

Early morning run-training results in enhanced endurance performance adaptations in mice

Hesketh S, Sexton C, Wolff C, Viggars M, Esser K

bioRxiv . 2023 Oct; PMID: 37781623

Time-of-day differences in acute exercise performance in mice are well established with late active phase (afternoon) runners exhibiting significantly greater endurance performance compared to early active phase (morning) runners. In...

Defining the age-dependent and tissue-specific circadian transcriptome in male mice

Wolff C, Gutierrez-Monreal M, Meng L, Zhang X, Douma L, Costello H, et al.

Cell Rep . 2023 Jan; 42(1):111982. PMID: 36640301

Cellular circadian clocks direct a daily transcriptional program that supports homeostasis and resilience. Emerging evidence has demonstrated age-associated changes in circadian functions. To define age-dependent changes at the systems level,...

The application of proteomics in muscle exercise physiology

Hesketh S, Stansfield B, Stead C, Burniston J

Expert Rev Proteomics . 2021 Jan; 17(11-12):813-825. PMID: 33470862

Introduction: Exercise offers protection from non-communicable diseases and extends healthspan by offsetting natural physiological declines that occur in older age. Striated muscle is the largest bodily organ; it underpins the...

Time of Day and Muscle Strength: A Circadian Output?

Douglas C, Hesketh S, Esser K

Physiology (Bethesda) . 2020 Dec; 36(1):44-51. PMID: 33325817

For more than 20 years, physiologists have observed a morning-to-evening increase in human muscle strength. Recent data suggest that time-of-day differences are the result of intrinsic, nonneural, muscle factors. We...

Adaptation of rat fast-twitch muscle to endurance activity is underpinned by changes to protein degradation as well as protein synthesis

Hesketh S, Sutherland H, Lisboa P, Jarvis J, Burniston J

FASEB J . 2020 Jun; 34(8):10398-10417. PMID: 32598083

Muscle adaptations to exercise are underpinned by alterations to the abundance of individual proteins, which may occur through a change either to the synthesis or degradation of each protein. We...

10.

Fractional Synthesis Rates of Individual Proteins in Rat Soleus and Plantaris Muscles

Stead C, Hesketh S, Bennett S, Sutherland H, Jarvis J, Lisboa P, et al.

Proteomes . 2020 May; 8(2). PMID: 32403418

Differences in the protein composition of fast- and slow-twitch muscle may be maintained by different rates of protein turnover. We investigated protein turnover rates in slow-twitch soleus and fast-twitch plantaris...