Disruption of vma-1, the gene encoding the catalytic subunit of the vacuolar H+-ATPase, causes severe morphological changes in Neurospora crassa

Abstract

By using the process of Repeat-induced Point mutation (Selker, E. U., and Garrett, P. W. (1988) Proc. Natl. Acad. Sci. U.S.A. 85, 6870-6874), we inactivated vma-1, the gene encoding subunit A of the V-ATPase of Neurospora crassa. Two vma-1 mutant strains were characterized. One was mutated at multiple sites, did not make a protein product, and produced spores that only rarely germinated. The other had four point mutations, made a protein product, and produced viable spores. Neither strain had detectable V-ATPase activity. The vma-1 mutant strains did not grow in medium buffered to pH 7.0 or above or in medium supplemented with the cation Zn2+. They were completely resistant to inhibition by concanamycin C, supporting our hypothesis that the V-ATPase is the in vivo target of this antibiotic. Inactivation of the vma-1 gene had a pronounced effect on morphology and development of the organism. In the mutants tip growth was inhibited, and multiple branching was induced. The vma-1 mutant strains could not differentiate conidia or perithecia. They could grow slowly as mycelia and could donate nuclei in a sexual cross. A mutation in the plasma membrane ATPase, which suppressed the sensitivity of wild type N. crassa to concanamycin, also proved effective in suppressing the sensitivity of a vma-1 null mutant to basic pH but did not correct the morphological defects.