Abstract
Septoria tritici blotch (STB) caused by the Ascomycete fungus Zymoseptoria tritici is one of the most economically damaging diseases of wheat worldwide. Z. tritici
is currently a major target for agricultural fungicides, especially in
temperate regions where it is most prevalent. Many fungicides target
electron transfer enzymes because these are often important for cell
function. Therefore characterisation of genes encoding such enzymes may
be important for the development of novel disease intervention
strategies. Microsomal cytochrome b5 reductases (CBRs) are an
important family of electron transfer proteins which in eukaryotes are
involved in the biosynthesis of fatty acids and complex lipids including
sphingolipids and sterols. Unlike the model yeast Saccharomyces cerevisiae which possesses only one microsomal CBR, the fully sequenced genome of Z. tritici bears three possible microsomal CBRs. RNA sequencing analysis revealed that ZtCBR1 is the most highly expressed of these genes under all in vitro and in planta conditions tested, therefore ΔZtCBR1
mutant strains were generated through targeted gene disruption. These
strains exhibited delayed disease symptoms on wheat leaves and severely
limited asexual sporulation. ΔZtCBR1 strains also exhibited aberrant spore morphology and hyphal growth in vitro.
These defects coincided with alterations in fatty acid, sphingolipid
and sterol biosynthesis observed through GC–MS and HPLC analyses. Data
is presented which suggests that Z. tritici may use ZtCBR1 as
an additional electron donor for key steps in ergosterol biosynthesis,
one of which is targeted by azole fungicides. Our study reports the
first functional characterisation of CBR gene family members in a plant
pathogenic filamentous fungus. This also represents the first direct
observation of CBR functional ablation impacting upon fungal sterol
biosynthesis.
Original language | English |
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Pages (from-to) | 69-84 |
Number of pages | 16 |
Journal | Fungal Genetics and Biology |
Volume | 82 |
Early online date | 11 Jun 2015 |
DOIs | |
Publication status | Published - 1 Sept 2015 |
Keywords
- CYP51
- Cytochrome P450
- Dimorphic fungi
- Fatty acids
- Mycosphaerella graminicola
- Septoria tritici