Current nuclear pore models do not consider the possibility that transport time might vary under different conditions. But that is just what Yang and Musser found when they increased the concentration of importin β in an in vitro system. Transport speed increased as much as sevenfold. Transport was also more efficient—more of the molecules that entered the pore passed through it successfully.
Structure-based studies suggest that long strands of phenylalanine–glycine (FG) repeats extend from the edge of the nuclear pore into the channel, creating a spaghetti-like network that molecules must wiggle through as they traverse the pore. A single importin β protein can bind to several of these FG repeats...
The Rockefeller University Press
2006
The Rockefeller University Press
2006
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