Enhanced degradation of the ferritin repressor protein during induction of ferritin messenger RNA translation
LS Goessling, S Daniels-McQueen… - Science, 1992 - science.org
LS Goessling, S Daniels-McQueen, M Bhattacharyya-Pakrasi, JJ Lin, RE Thach
Science, 1992•science.orgInduction of ferritin synthesis in cultured cells by heme or iron is accompanied by
degradation of the ferritin repressor protein (FRP). Intermediates in the degradative pathway
apparently include FRP covalently linked in larger aggregates. The effect of iron on FRP
degradation is enhanced by porphyrin precursors but is decreased by inhibitors of porphyrin
synthesis, which implies that heme is an active agent. These results suggest that
translational induction in this system may be caused by enhanced repressor degradation …
degradation of the ferritin repressor protein (FRP). Intermediates in the degradative pathway
apparently include FRP covalently linked in larger aggregates. The effect of iron on FRP
degradation is enhanced by porphyrin precursors but is decreased by inhibitors of porphyrin
synthesis, which implies that heme is an active agent. These results suggest that
translational induction in this system may be caused by enhanced repressor degradation …
Induction of ferritin synthesis in cultured cells by heme or iron is accompanied by degradation of the ferritin repressor protein (FRP). Intermediates in the degradative pathway apparently include FRP covalently linked in larger aggregates. The effect of iron on FRP degradation is enhanced by porphyrin precursors but is decreased by inhibitors of porphyrin synthesis, which implies that heme is an active agent. These results suggest that translational induction in this system may be caused by enhanced repressor degradation. While unique among translational regulatory systems, this process is common to a variety of other biosynthetic control mechanisms.
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