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Mol. Cell. Biol., 03 1995, 1467-1478, Vol 15, No. 3
SA Shaaban, BM Krupp and BD Hall
In order to identify catalytically important amino acid changes within the
second-largest subunit of yeast RNA polymerase III, we mutagenized selected
regions of its gene (RET1) and devised in vivo assays for both increased
and decreased transcription termination by this enzyme. Using as the
reporter gene a mutant SUP4-o tRNA gene that in one case terminates
prematurely and in the other case fails to terminate, we screened
mutagenized RET1 libraries for reduced and increased transcription
termination, respectively. The gain in suppression phenotype was in both
cases scored as a reduction in the accumulation of red pigment in yeast
strains harboring the ade2-1 ochre mutation. Termination-altering mutations
were obtained in regions of the RET1 gene encoding amino acids 300 to 325,
455 to 486, 487 to 521, and 1061 to 1082 of the protein. In degree of amino
acid sequence conservation, these range from highly variable in the first
to highly conserved in the last two regions. Residues 300 to 325 yielded
mainly reduced- termination mutants, while in region 1061 to 1082,
increased- termination mutants were obtained exclusively. All mutants
recovered, while causing gain of suppression with one SUP4 allele, brought
about a reduction in suppression with the other allele, thus confirming
that the phenotype is due to altered termination rather than an elevated
level of transcription initiation. In vitro transcription reactions
performed with extracts from several strong mutants demonstrated that the
mutant polymerases respond to RNA terminator sequences in a manner that
matches their in vivo termination phenotypes.
Copyright © 1995, American Society for Microbiology
Termination-altering mutations in the second-largest subunit of yeast RNA polymerase III
Department of Genetics, University of Washington, Seattle 98195.
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