ISSN:
1618-2545
Keywords:
benomyl resistance
;
Coprinus cinereus
;
microtubule
;
β tubulin
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Abstract The sensitivity of the homobasidiomyceteCoprinus cinereus to the benzimidazole fungicide benomyl allowed us to isolate β-tubulin mutants as strains resistant to benomyl. To understand the molecular basis for the interaction between benomyl and β tubulin and for cellular defects in the β-tubulin mutants, we first analyzed the wild-type β1-tubulin gene (benA) ofC. cinereus, revealing thatbenA contains eight introns and encodes a 445 amino-acid protein. We then characterized 16 β1-tubulin mutants. The 16 mutations involved 11 different amino-acid substitutions at 10 different residues in β1 tubulin. The mutated residues were widely distributed along the primary sequence of β1 tubulin, from residue 3 in the N-terminal domain to residue 350 in the intermediate domain, but half of them appeared to be close to the αβ intradimer interface in an atomic model determined by electron crystallography. The benomyl resistant strain BEN 193, which exhibits clear heat sensitivity for hyphal growth and defects in various cellular processes, had a novel mutation, i.e., the Leu to Phe substitution at residue 350. Benomyl resistance and the heat sensitivity in BEN 193 were suppressed by additional amino-acid substitutions at various residues in β1 tubulin, suggesting that conformational changes of β1 tubulin are involved in the alterations.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF02463961
Permalink