SPN1, a Conserved Gene Identified by Suppression of a Postrecruitment-Defective Yeast TATA-Binding Protein Mutant

SPN1, a Conserved Gene Identified by Suppression of a Postrecruitment-Defective Yeast TATA-Binding Protein Mutant

Julie A. Fischbeck^a, Susan M. Kraemer^b, and Laurie A. Stargell^a
^a Department of Biochemistry and Molecular Biology, Colorado State University, Fort Collins, Colorado 80523-1870
^b Department of Pathobiology, Seattle Biomedical Research Institute, Seattle, Washington 98109

Corresponding author: Laurie A. Stargell, Colorado State University, Fort Collins, CO 80523-1870., lstargel{at}lamar.colostate.edu (E-mail)

Communicating editor: M. HAMPSEY

Little is known about TATA-binding protein (TBP) functions afterrecruitment to the TATA element, although several TBP mutantsdisplay postrecruitment defects. Here we describe a geneticscreen for suppressors of a postrecruitment-defective TBP allele.Suppression was achieved by a single point mutation in a previouslyuncharacterized Saccharomyces cerevisiae gene, SPN1 (suppressespostrecruitment functions gene number 1). SPN1 is an essentialyeast gene that is highly conserved throughout evolution. Thesuppressing mutation in SPN1 substitutes an asparagine for aninvariant lysine at position 192 (spn1^K192N). The spn1^K192Nstrain is able to suppress additional alleles of TBP that possesspostrecruitment defects, but not a TBP allele that is postrecruitmentcompetent. In addition, Spn1p does not stably associate withTFIID in vivo. Cells containing the spn1^K192N allele exhibita temperature-sensitive phenotype and some defects in activatedtranscription, whereas constitutive transcription appears relativelyrobust in the mutant background. Consistent with an importantrole in postrecruitment functions, transcription from the CYC1promoter, which has been shown to be regulated by postrecruitmentmechanisms, is enhanced in spn1^K192N cells. Moreover, we findthat SPN1 is a member of the SPT gene family, further supportinga functional requirement for the SPN1 gene product in transcriptionalprocesses.

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