Generation of an Isogenic Collection of Yeast Actin Mutants and Identification of Three Interrelated Phenotypes

Generation of an Isogenic Collection of Yeast Actin Mutants and Identification of Three Interrelated Phenotypes

Johanna L. Whitacre^a, Dana A. Davis^a, Kurt A. Toenjes^a, Sharon M. Brower^a, and Alison E. M. Adams^a
^a Department of Molecular & Cellular Biology, University of Arizona, Tucson, Arizona 85721

Corresponding author: Johanna L. Whitacre, Department of Biology, 9500 Gilman Dr., MC 0349, University of California, San Diego, CA 92093-0349., jodell{at}biomail.ucsd.edu (E-mail)

Communicating editor: F. WINSTON

A large collection of yeast actin mutations has been previouslyisolated and used in numerous studies of actin cytoskeletalfunction. However, the various mutations have been in congenic,rather than isogenic, backgrounds, making it difficult to comparethe subtle phenotypes that are characteristic of these mutants.We have therefore placed 27 mutations in an isogenic background.We used a subset of these mutants to compare the degree to whichdifferent actin alleles are defective in sporulation, endocytosis,and growth on NaCl-containing media. We found that the threephenotypes are highly correlated. The correlations are specificand not merely a reflection of general growth defects, becausethe phenotypes are not correlated with growth rates under normalconditions. Significantly, those actin mutants exhibiting themost severe phenotypes in all three processes have altered residuesthat cluster to a small region of the actin crystal structurepreviously defined as the fimbrin (Sac6p)-binding site. We examinedthe relationship between endocytosis and growth on salt andfound that shifting wild-type or actin mutant cells to highsalt reduces the rate of ${alpha}$ -factor internalization. These resultssuggest that actin mutants may be unable to grow on salt becauseof additive endocytic defects (due to mutation and salt).

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