Multicolor and electron microscopic imaging of connexin trafficking
Science, 2002•science.org
Recombinant proteins containing tetracysteine tags can be successively labeled in living
cells with different colors of biarsenical fluorophores so that older and younger protein
molecules can be sharply distinguished by both fluorescence and electron microscopy. Here
we used this approach to show that newly synthesized connexin43 was transported
predominantly in 100-to 150-nanometer vesicles to the plasma membrane and incorporated
at the periphery of existing gap junctions, whereas older connexins were removed from the …
cells with different colors of biarsenical fluorophores so that older and younger protein
molecules can be sharply distinguished by both fluorescence and electron microscopy. Here
we used this approach to show that newly synthesized connexin43 was transported
predominantly in 100-to 150-nanometer vesicles to the plasma membrane and incorporated
at the periphery of existing gap junctions, whereas older connexins were removed from the …
Recombinant proteins containing tetracysteine tags can be successively labeled in living cells with different colors of biarsenical fluorophores so that older and younger protein molecules can be sharply distinguished by both fluorescence and electron microscopy. Here we used this approach to show that newly synthesized connexin43 was transported predominantly in 100- to 150-nanometer vesicles to the plasma membrane and incorporated at the periphery of existing gap junctions, whereas older connexins were removed from the center of the plaques into pleiomorphic vesicles of widely varying sizes. Selective imaging by correlated optical and electron microscopy of protein molecules of known ages will clarify fundamental processes of protein trafficking in situ.
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