Ae. Desjardins et al., REDUCED VIRULENCE OF TRICHOTHECENE-NONPRODUCING MUTANTS OF GIBBERELLA-ZEAE IN WHEAT FIELD-TESTS, Molecular plant-microbe interactions, 9(9), 1996, pp. 775-781
We have analyzed the role of trichothecene toxins in the virulence of
the fungus Gibberella zeae (anamorph, Fusarium graminearum) on wheat (
Triticum aestivum), Trichothecene-nonproducing mutants of G. zeae were
obtained by disrupting Tri5, the gene encoding trichodiene synthase,
which catalyzes the first committed step in the trichothecene biosynth
etic pathway, Trichothecene-nonproducing mutants appear to be normal i
n growth and development under laboratory conditions, One such mutant
was selfed to generate a meiotic revertant that lost the disruption ve
ctor and recovered trichothecene production. In the present study, vir
ulence was assessed in 1994 and 1995 by controlled field inoculation o
f G. zeae spore suspensions into flowering wheat heads, Trichothecene-
nonproducing (Tri5(-)) mutants were less virulent than the trichothece
ne-producing (Tri5(+)) parental and revertant strains in their ability
to cause head scab on field-grown wheat, Although trichothecene-nonpr
oducing strains colonized wheat heads, the infected heads showed less
disease by several parameters we tested, including head bleaching symp
toms, seed weight, seed viability, and trichothecene contamination, Th
is evidence indicates that trichothecenes are virulence factors in whe
at head scab.