Recombinant Human Myozenin 1 protein (denatured)

Supplementary info

This supplementary information is collated from multiple sources and compiled automatically.

Activity summary

Myozenin 1 also known as calsarcin-2 is a protein expressed mainly in skeletal muscle with a molecular weight of approximately 35 kDa. It connects protein structures at the Z-disks in muscle cells. Myozenin 1 links to other important muscle proteins such as alpha-actinin and gamma-filamin. Through these interactions it helps maintain structural integrity and transmission of force within muscle fibers.

Biological function summary

The role of Myozenin 1 extends beyond structural support in muscle. It modulates signal transduction pathways essential for muscle function and adaptation. This protein forms part of a complex with calcineurin a phosphatase involved in muscle-specific gene expression control. By regulating calcineurin activity Myozenin 1 influences muscle fiber type composition and response to physiological stimuli.

Pathways

Myozenin 1 participates in the calcineurin-NFAT signaling pathway which is a critical regulator of muscle development and adaptation. While Myozenin 1 itself interacts directly with calcineurin it also has indirect associations with proteins like NFAT that mediate its downstream effects. These pathways play important roles in muscle plasticity and response to mechanical stress.

Associated diseases and disorders

Alterations in Myozenin 1 expression or function may relate to conditions such as muscle weakness and hypertrophic cardiomyopathy. Myozenin 1 interacts with proteins like calcineurin and disruptions in this relationship can lead to abnormal muscle signaling and pathological changes. Research continues to explore the direct contributions of Myozenin 1 to muscle-related diseases and their underlying molecular mechanisms.