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1. Skeletal Muscle Receptors

   This amazing chapter takes a deep dive into the realm of skeletal muscle receptors, particularly emphasizing the Vitamin D receptor (VDR) and the...

   Christopher Myers in Skeletal Muscle Physiology

   Chapter 2024
   

2. Basic Structure of Skeletal Muscle

   Building on the foundational understanding established in the first chapter, Chap. 2 explores the burgeoning...

   Christopher Myers in Skeletal Muscle Physiology

   Chapter 2024
   

3. Fast myosin binding protein C knockout in skeletal muscle alters length-dependent activation and myofilament structure

   In striated muscle, the sarcomeric protein myosin-binding protein-C (MyBP-C) is bound to the myosin thick filament and is predicted to stabilize...

   Anthony L. Hessel, Michel N. Kuehn, ... Bradley M. Palmer in Communications Biology

   Article Open access 27 May 2024
   

4. Downregulation of mitochondrial metabolism is a driver for fast skeletal muscle loss during mouse aging

   Skeletal muscle aging is characterized by the loss of muscle mass, strength and function, mainly attributed to the atrophy of glycolytic fibers....

   Raquel Fernando, Anastasia V. Shindyapina, ... José Pedro Castro in Communications Biology

   Article Open access 08 December 2023
   

5. Human skeletal muscle aging atlas

   Skeletal muscle aging is a key contributor to age-related frailty and sarcopenia with substantial implications for global health. Here we profiled...

   Veronika R. Kedlian, Yaning Wang, ... Hongbo Zhang in Nature Aging

   Article Open access 15 April 2024
   

6. Skeletal Muscle Energy Metabolism & Contraction

   Skeletal muscle contraction and energy metabolism are closely intertwined processes essential for maintaining physiological functions and supporting...

   Christopher Myers in Skeletal Muscle Physiology

   Chapter 2024
   

7. Adipocyte Rnf20 ablation increases the fast-twitch fibers of skeletal muscle via lysophosphatidylcholine 16:0

   Both adipose tissue and skeletal muscle are highly dynamic tissues and interact at the metabolic and hormonal levels in response to internal and...

   Ying Zhao, Chuanhe Chen, ... Yanfang Wang in Cellular and Molecular Life Sciences

   Article 09 August 2023
   

8. The Effects of Exercise on Skeletal Muscle

   This chapter investigates the profound effects of exercise on skeletal muscle. In its many forms, exercise plays an indisputable role in influencing...

   Christopher Myers in Skeletal Muscle Physiology

   Chapter 2024
   

9. Epigenetic control of skeletal muscle atrophy

   Skeletal muscular atrophy is a complex disease involving a large number of gene expression regulatory networks and various biological processes....

   Wenpeng Liang, Feng Xu, ... Junjie Sun in Cellular & Molecular Biology Letters

   Article Open access 08 July 2024
   

10. Skeletal Muscle Regeneration in Zebrafish

    Muscle regeneration models have revealed mechanisms of inflammation, wound clearance, and stem cell–directed repair of damage, thereby informing...

    Tapan G. Pipalia, Sami H. A. Sultan, ... Simon M. Hughes in Skeletal Muscle Stem Cells

    Protocol 2023
    

11. Exercise metabolism and adaptation in skeletal muscle

    Viewing metabolism through the lens of exercise biology has proven an accessible and practical strategy to gain new insights into local and systemic...

    Jonathon A. B. Smith, Kevin A. Murach, ... Juleen R. Zierath in Nature Reviews Molecular Cell Biology

    Article 24 May 2023
    

12. Lunar gravity prevents skeletal muscle atrophy but not myofiber type shift in mice

    Skeletal muscle is sensitive to gravitational alterations. We recently developed a multiple artificial-gravity research system (MARS), which can...

    Takuto Hayashi, Ryo Fujita, ... Satoru Takahashi in Communications Biology

    Article Open access 21 April 2023
    

13. Transcriptional programming of translation by BCL6 controls skeletal muscle proteostasis

    Skeletal muscle is dynamically controlled by the balance of protein synthesis and degradation. Here we discover an unexpected function for the...

    Krithika Ramachandran, Christopher R. Futtner, ... Grant D. Barish in Nature Metabolism

    Article 09 February 2024
    

14. Transcriptomic and metabolomic dissection of skeletal muscle of crossbred Chongming white goats with different meat production performance

    Background

    The transcriptome and metabolome dissection of the skeletal muscle of high- and low- growing individuals from a crossbred population of the...

    Yuexia Lin, Lingwei Sun, ... Jun Gao in BMC Genomics

    Article Open access 04 May 2024
    

15. Tropomyosin 3 (TPM3) function in skeletal muscle and in myopathy

    The tropomyosin genes ( TPM1-4 ) contribute to the functional diversity of skeletal muscle fibers. Since its discovery in 1988, the TPM3 gene has been...

    Matthias R. Lambert, Emanuela Gussoni in Skeletal Muscle

    Article Open access 07 November 2023
    

16. MuSCs and IPCs: roles in skeletal muscle homeostasis, aging and injury

    Skeletal muscle is a highly specialized tissue composed of myofibres that performs crucial functions in movement and metabolism. In response to...

    Haiyan Jiang, Boya Liu, ... Hualin Sun in Cellular and Molecular Life Sciences

    Article Open access 30 January 2024
    

17. Fast and slow skeletal myosin binding protein-C and aging

    Aging is associated with skeletal muscle strength decline and cardiac diastolic dysfunction. The structural arrangements of the sarcomeric proteins,...

    L. R. Perazza, G. Wei, L. V. Thompson in GeroScience

    Article Open access 21 November 2022
    

18. Simulated microgravity attenuates myogenesis and contractile function of 3D engineered skeletal muscle tissues

    While the effects of microgravity on inducing skeletal muscle atrophy have been extensively studied, the impacts of microgravity on myogenesis and...

    Zhan** Ren, Eun Hyun Ahn, ... Deok-Ho Kim in npj Microgravity

    Article Open access 16 February 2024
    

19. Spaceflight on the ISS changed the skeletal muscle proteome of two astronauts

    Skeletal muscle undergoes atrophy and loss of force during long space missions, when astronauts are persistently exposed to altered gravity and...

    Marta Murgia, Jörn Rittweger, ... Marco V. Narici in npj Microgravity

    Article Open access 05 June 2024
    

20. Deficiency of skeletal muscle Agrin contributes to the pathogenesis of age-related sarcopenia in mice

    Sarcopenia, a progressive and prevalent neuromuscular disorder, is characterized by age-related muscle wasting and weakening. Despite its widespread...

    Jie Chen, Hong Chen, ... **nsheng Lai in Cell Death & Disease

    Article Open access 09 March 2024