The impact of the termination override mutation on the activity of SSU72

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Date
2016-12-19
Language
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

Ssu72, an RNA Pol II CTD phosphatase that is conserved across eukaryotes, has been reported to have a wide array of genetic and physical associations with transcription factors and complexes in RNA transcription. Catalytic mutants of Ssu72 are lethal across many eukaryotes, and mutations to non-catalytic sites in SSU72 phosphatase have been shown to lower function. One spontaneous mutation of the SSU72 gene in Saccharomyces cerevisiae (A to C nucleotide mutation resulting in an L84F mutation in the coded protein) was shown to have transcription termination deficiency (termination override or TOV). This SSU72 mutation was suggested by Loya et al. to cause a lowering of the phosphatase activity of the protein and consequently affect proper termination. In research reported herein, an investigation was completed through in-vitro and ex-vivo approaches with the goal of understanding the impact of the SSU72 TOV mutation on the observed phenotype in S. cerevisiae. It can be concluded from work presented in this report that the SSU72 TOV mutation does not cause a decrease in in-vitro phosphatase activity as compared to wild type. Evidence presented even suggests an increase in phosphatase activity as compared to wild type Ssu72. One model for the observed responses in transcription termination is that the phenylalanine substitution in Ssu72 leads to cooperative interactions with proline residues in the CTD. It is proposed that the corresponding increase in Ssu72 phosphatase activity limits RNA Pol II CTD association with termination factors, such as Nrd1, thus causing deficient transcription termination.

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Indiana University-Purdue University Indianapolis (IUPUI)
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