Changes in the Rpb3 Interactome Caused by the Deletion of RPB9 in Saccharomyces cerevisiae

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Date
2016-08-02
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American English
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M.S.
Degree Year
2016
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Department of Biochemistry & Molecular Biology
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Indiana University
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Abstract

RNA Polymerase II (Pol II) is the primary actor in the transcription of mRNA from genes. Pol II is a complex composed of twelve protein subunits. This study focused on the changes in the interactome of Rbp3 in S. cerevisiae when the Pol II subunit Rpb9 is removed. Rpb3 is one of the core subunits of Pol II, and any significant changes to the Rpb3 incteractome due to the loss of Rpb9 can be used to infer new information about Rpb9’s role in the Pol II complex. Rpb3 was pulled down using FLAG purification from both wild type and rpb9Δ S. cerevisiae cultures. Rpb3 and the proteins complexed with it were then analyzed using multi-dimensional protein identification technology (MudPIT), a form of liquid chromatography-mass spectrometry (LC-MS). This data was searched using the SEQUEST database search algorithm, and the results were further analyzed for likelihood of interaction using Significance Analysis of INTeractome (SAINT), as well as for post-translational phosphorylation. Deletion of rpb9 did not present any changes in Pol II phosphorylation however it did cause several changes in the interaction network. The rpb9Δ strain showed new interactions with Rtr1, Sen1, Vtc4, Pyc1, Tgl4, Sec61, Tfb2, Hfd1, Erv25, Rib4, Sla1, Ubp15, Bbc1, and Hxk1. The most prominent of these hits are Rtr1, an Rpb1 C-terminal domain phosphatase linked to transcription termination, and Sen1, an RNA/DNA nuclease that terminates transcription. In addition, this mutant showed no interaction with Mtd1, an interaction that is present in the wild type. In all cases, these hits should be considered fuel for future research, rather than conclusive evidence of novel interactions.

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Indiana University-Purdue University Indianapolis (IUPUI)
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