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Diacetoxyscirpenol, a Fusarium exometabolite, prevents efficiently the incidence of the parasitic weed Striga hermonthica
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Diacetoxyscirpenol, a Fusarium exometabolite, prevents efficiently the incidence of the parasitic weed Striga hermonthica
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Journal Article
Diacetoxyscirpenol, a Fusarium exometabolite, prevents efficiently the incidence of the parasitic weed Striga hermonthica
2022
Overview
Background
Certain
Fusarium
exometabolites have been reported to inhibit seed germination of the cereal-parasitizing witchweed,
Striga hermonthica
,
in vitro
. However, it is unknown if these exometabolites will consistently prevent
S. hermonthica
incidence
in planta
. The study screened a selection of known, highly phytotoxic
Fusarium
exometabolites, in identifying the most potent/efficient candidate (i.e., having the greatest effect at minimal concentration) to completely hinder
S. hermonthica
seed germination
in vitro
and incidence
in planta
, without affecting the host crop development and yield.
Results
In vitro
germination assays of the tested
Fusarium
exometabolites (i.e., 1,4-naphthoquinone, equisetin, fusaric acid, hymeglusin, neosolaniol (Neo), T-2 toxin (T-2) and diacetoxyscirpenol (DAS)) as pre-
Striga
seed conditioning treatments at 1, 5, 10, 20, 50 and 100 µM, revealed that only DAS, out of all tested exometabolites, completely inhibited
S. hermonthica
seed germination at each concentration. It was followed by T-2 and Neo, as from 10 to 20 µM respectively. The remaining exometabolites reduced
S. hermonthica
seed germination as from 20 µM (
P
< 0. 0001).
In planta
assessment (in a
S. hermonthica
-sorghum parasitic system) of the exometabolites at 20 µM showed that, although, none of the tested exometabolites affected sorghum aboveground dry biomass (
P
> 0.05), only DAS completely prevented
S. hermonthica
incidence. Following a 14-d incubation of DAS in the planting soil substrate, bacterial 16S ribosomal RNA (rRNA) and fungal 18S rRNA gene copy numbers of the soil microbial community were enhanced; which coincided with complete degradation of DAS in the substrate. Metabolic footprinting revealed that the
S. hermonthica
mycoherbicidal agent,
Fusarium oxysporum
f. sp.
strigae
(isolates Foxy-2, FK3), did not produce DAS; a discovery that corresponded with underexpression of key genes (Tri5, Tri4) necessary for
Fusarium
trichothecene biosynthesis (
P
< 0.0001).
Conclusions
Among the tested
Fusarium
exometabolites, DAS exhibited the most promising herbicidal potential against
S. hermonthica
. Thus, it could serve as a new biocontrol agent for efficient
S. hermonthica
management. Further examination of DAS specific mode of action against the target weed
S. hermonthica
at low concentrations (≤ 20 µM), as opposed to non-target soil organisms, is required.
Publisher
BioMed Central,BioMed Central Ltd,BMC
Subject
