
Top left: PGC1 deficiency leads to severe muscle damage, evidenced by numerous centralized nuclei (highlighted with arrows), which is likely due to impaired mitochondrial energy metabolism (bottom left: blue staining shows impaired mitochondrial activity). Such muscle damage and mitochondrial impairment is largely rescued by ERR? overexpression (top and bottom right). Credit: Salk Institute
If you’ve ever wondered how strenuous exercise translates into better endurance, researchers at the Salk Institute may have your answer. In a study published in the journal Cell Reports on March 6, 2018, scientists in Ronald Evans’ lab have shown that the protein ERRγ (ERR gamma) helps deliver many of the benefits associated with endurance exercise...
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