Your workmanship is marvelous—how well I know it.
Psalm 139:14 NLT
"Researchers at Auburn University have achieved a groundbreaking discovery, illuminating the process by which brain cells efficiently replace older proteins.
This process is essential for maintaining effective neural communication and optimal cognitive function.
The study, entitled “Recently Recycled Synaptic Vesicles Use Multi-
Cytoskeletal Transport and Differential Presynaptic Capture Probability to Establish a Retrograde Net Flux During ISVE in Central Neurons,” explains the transportation and recycling of older proteins in brain cells.
Dr. Gramlich adds, “Our work reveals a regulatable pathway that can be modulated to accommodate increased or decreased brain function. This prevents the degradation of neurons over time.”
“We were surprised to find that a single simple and regulatable mechanism determines when older proteins are chosen to be recycled,” Dr. Gramlich remarks, emphasizing the significance of their findings." SciTechDaily
Dr. Gramlich adds, “Our work reveals a regulatable pathway that can be modulated to accommodate increased or decreased brain function. This prevents the degradation of neurons over time.”
“We were surprised to find that a single simple and regulatable mechanism determines when older proteins are chosen to be recycled,” Dr. Gramlich remarks, emphasizing the significance of their findings." SciTechDaily
