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Spt5 Affects The Rate Of Mrna Degradation And Physically Interacts With Ccr4 But Does Not Control Mrna Deadenylation, Yajun Cui, Yueh-Chin Chiang, Palaniswamy Viswanathan, Darren J. Lee, Clyde L. Denis
Spt5 Affects The Rate Of Mrna Degradation And Physically Interacts With Ccr4 But Does Not Control Mrna Deadenylation, Yajun Cui, Yueh-Chin Chiang, Palaniswamy Viswanathan, Darren J. Lee, Clyde L. Denis
New Hampshire Agricultural Experiment Station Publications
The CCR4-NOT complex has been shown to have multiple roles in mRNA metabolism, including that of transcriptional elongation, mRNA transport, and nuclear exosome function, but the primary function of CCR4 and CAF1 is in the deadenylation and degradation of cytoplasmic mRNA. As previous genetic analysis supported an interaction between SPT5, known to be involved in transcriptional elongation, and that of CCR4, the physical association of SPT5 with CCR4 was examined. A two-hybrid screen utilizing the deadenylase domain of CCR4 as a bait identified SPT5 as a potential interacting protein. SPT5 at its physiological concentration was shown to immunoprecipitate CCR4 and …